Functional Validation of Steering Actuators – Test Bench Control via VT System
In order to validate system requirements for passenger car rear axle steering systems, ZF uses the Vector VT System to control a HiL test bench.
Christopf Koch, Team Manager Testfield Mechatronics in the R&D department of the Product Line Chassi Actuators at ZF, gives a detailed insight into the test process and the components required for it.
TOPICS
► General Test Bench Capabilities
a) Vehicle motion control: rear axle steering AKC – Active Kinematics Control
b) Test bench history @ ZF for rear steering systems
c) Test bench for validation of steering actuators
d) Test bench for validation of steering actuators: function & safety @ system level
e) Development targets
► Hardware Design
a) Hardware architecture
b) Standard hardware for force control loop: VT2816 analogue interface
c) Customized hardware for counter signals
► Software Design
a) Software architecture: Visual Studio .Net defined as development platform
b) Communication of modular application add-ons
c) Concept of self configuring test benches
d) Example of use case – GUI-Peripherie
► Achievements
More information on Vector's HIL simulators: https://www.vector.com/vt
Get notified when we release new videos by subscribing to our channel https://vector.com/youtube and hitting the notify bell.
#HIL
Видео Functional Validation of Steering Actuators – Test Bench Control via VT System канала VECTOR
Christopf Koch, Team Manager Testfield Mechatronics in the R&D department of the Product Line Chassi Actuators at ZF, gives a detailed insight into the test process and the components required for it.
TOPICS
► General Test Bench Capabilities
a) Vehicle motion control: rear axle steering AKC – Active Kinematics Control
b) Test bench history @ ZF for rear steering systems
c) Test bench for validation of steering actuators
d) Test bench for validation of steering actuators: function & safety @ system level
e) Development targets
► Hardware Design
a) Hardware architecture
b) Standard hardware for force control loop: VT2816 analogue interface
c) Customized hardware for counter signals
► Software Design
a) Software architecture: Visual Studio .Net defined as development platform
b) Communication of modular application add-ons
c) Concept of self configuring test benches
d) Example of use case – GUI-Peripherie
► Achievements
More information on Vector's HIL simulators: https://www.vector.com/vt
Get notified when we release new videos by subscribing to our channel https://vector.com/youtube and hitting the notify bell.
#HIL
Видео Functional Validation of Steering Actuators – Test Bench Control via VT System канала VECTOR
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
vCDM Tutorial - Software Change
HAPPY HOLIDAYS 🦌🦌🦌
DoIP with Vector CANoe (5/6): Encrypted Communication via TLS
HIL Testing | Unveiling the Latest Vector Innovations | Register for Free | April 26, 2023
Faster Test Case Execution in VectorCAST
CANoe4SW and CANoe Connectivity Hub: Managing Access to Systems Under Test
All-Understander: Plug-on-Devices | VX1000 PODs
The New Features of CANape 21
Medical Engineering | Hello Dexter! Bringing a Surgical Robot to Life | #WardRoundsWithVector
#VTT19 On the Spot: Automated Software Testing
Virtual #eMobility Symposium 2021: Vector/CSM E-Mobility High Voltage Measurement
GB/T 27930: Overview About the Chinese Charging Standard
How Is Information Sent Over Networks | AUTOSAR Classic | #EnginEEringTheJigsaw | I5
Metrics for Timing Analysis in ECU Projects: Start Delay
Vector Live Events | What To Expect When You Visit One
System Testing - Our Journey to CI | Integration with a Cloud-Based CI Infrastructure
Impressions of the Vector SDV Symposium 2023
DaVinci Developer Adaptive - Highlights of the New Version 2.5
AUTOSAR UDS Service Authentication - MICROSAR Diagnostic Communication Manager Dcm
Virtual E-Mobility Symposium 2021: Smart Charging and TLS Encryption
Software Design: Describing Ports | AUTOSAR Classic | #EnginEEringTheJigsaw | I3