After evaluating several data acquisition systems, Link decided to integrate an IOtech WaveBook/516 and signal input modules into its vehicle data acquisition system. The major advantage of IOtech over other systems, claims Jim Thompson, Executive Director of Link, is its modularity. He is able to configure a system for any particular customer’s need, and customers are likewise able to change configurations on the fly. The WaveBook runs easily under the same software that Link developed for its dynamometers. For instance, Link software includes a feature that allows customers to pull a module out of one system and put it in another. The software recognizes that event and it helps reconfigure the system to manage the extra module. This is a major advantage for both Link and its customers. Says Thompson, “Our competitors are using another brand of system, and in order to reconfigure the setup or make a small change, they need to swap out boards or go to an entirely new chassis.” The architecture of a typical Link Engineering test system includes a notebook PC connected to a WaveBook/516 for high-speed waveform acquisition and analysis with WBK15 and WBK17 input modules.
The WaveBook/516 transfers acquired data to the PC allowing a continuous stream of a large amount of data to be collected and stored in the PC’s memory or hard drive for post processing. WaveBook/516Es have 16-bit resolution, sample at a rate of 1 MHz, and come with a built-in 10/100BaseT Ethernet interface. WaveBook/516As replace the Ethernet interface with a parallel port. All WaveBook models include 8 built-in channels expandable to 72 channels for voltage, accelerometers, microphones, strain gages, thermocouples, position encoders, frequency, high voltage, and other signal types. For applications beyond 72 channels, up to four WaveBooks can be combined to provide 288 channels.
WBK15 modules are multiple-purpose, isolated signal conditioners that are driven by various IOtech 5B modules, in this case, thermocouple input signal conditioners. WBK17s are eight-channel counter/encoder/high-voltage signal modules, used in Link’s system to measure speed, temperature, and strain driven by thermocouple and strain gage modules. In addition, Link provides a power module that supplies the IOtech hardware, and any other components, actuators, or sensors the customer is using. It includes inverters, battery packs, excitation voltages for transducers, and a unique heads-up display.
The heads-up display (HUD) is a Link Engineering product that customers place on the dashboard to view prompts, reminders, status of tests, ramps for braking or acceleration, or other data needed for the test. The HUD is primarily employed in test track vehicle evaluations.
Most channels currently measure numerous temperatures that include brake rotors and pads, brake-line pressure at multiple points, and strain on suspension components and anchor brackets. The system also measures speed using a 5th wheel or an optical sensor, or the speed signals from all four wheels. Another wheel is often added to evaluate ABS operation and other tests. In addition, Link measures interior noise, noise or vibration at the four vehicle corners (using accelerometers), and brake-pedal displacement and force. Link engineers also plug into the OBD-II bus with the DBK70 module. Says Thompson, “We like that very well; for the ABS guys, that’s just wonderful. They simply pull the ABS signals off the bus as they are going down the road.”
A typical Link integrated system contains from 16 to 64 channels. “Going beyond that will most probably be additional temperature measurement channels,” says Thompson, “because temperature is the parameter that may require measurements at a large number of points.”
