Development of engine-control unit with layered software architecture Joe Hashime, Osamu Tada, Minoru Yoshida (Daihatsu Motor Co., Ltd.)

JSAE Review ◽  
1996 ◽  
Vol 17 (4) ◽  
pp. 446
Keyword(s):  
Software Architecture ◽  
Control Unit ◽  
Engine Control Unit ◽  
Engine Control

scholarly journals Development of a Fuel Quantity based Engine Control Unit Software Architecture

2019 ◽  
Vol 69 (3) ◽  
pp. 203-207
Author(s):  
Samuel J. Jensen ◽  
Pramod M. Paul ◽  
A. Ramesh ◽  
Anand Mammen Thomas ◽  
N. S. Prasad ◽  
...  
Keyword(s):  
Software Architecture ◽  
Engine Speed ◽  
Control Unit ◽  
Engine Control Unit ◽  
Base Line ◽  
Engine Control ◽  
Fuel Injector ◽  
Rail Pressure ◽  
Control Logic ◽  
Injection Duration

   Conventionally diesel engines are controlled in open loop with maps based on engine speed and throttle position wherein fuel quantity is indirectly fixed using the rail pressure and injection duration maps with engine speed and throttle position as the independent variables which are measured by the respective sensors. In this work an engine control unit (ECU) software architecture where fuel quantity is directly specified in relation to the driver demand was implemented by modifying the control logic of a throttle position based framework. A desired fuel quantity for a given engine speed and throttle position was mapped from base line experiments on the reference engine. Injection durations and rail pressure required for this quantity was mapped on a fuel injector calibration test bench. The final calculation of injection duration in the new architecture is calculated using the fuel injector model. This enables determination of fuel quantity injected at any moment which directly indicates the torque produced by the engine at a given speed enabling smoke limited fuelling calculations and easing the implementation of control functions like all-speed governing.

scholarly journals VLC-Based Car-to-Car Communication

2020 ◽  
Vol 20 (1) ◽  
pp. 16
Author(s):  
Arnez Pramesti Ardi ◽  
Ilham Sukma Aulia ◽  
Rizky Ardianto Priramadhi ◽  
Denny Darlis
Keyword(s):  
Visible Light ◽  
Communication System ◽  
Control Unit ◽  
Visible Light Communication ◽  
Engine Control Unit ◽  
Experimental Results ◽  
Vehicle Speed ◽  
Engine Control ◽  
Infrared Communication ◽  
Car Accidents

Based on data from the Indonesian Traffic Corps by September 2019, the number of car accidents was dominated by rear-hit crashes with 6,966 accidents. Most of these accidents occurred during car convoys. It needs a car-to-car communication to increase driver awareness. One of the technologies that can be applied is Visible Light Communication (VLC) and infrared communication. The transmitted data are the vehicle speed data, throttle position, and brake stepping indicator. The data are obtained by reading the Engine Control Unit (ECU) in the car. The data are packaged from the three data and sent to other cars at day and night using VLC and infrared communication. The experimental results show that in a communication system that uses VLC, data can be exchanged between cars during the day up to 2 meters and at night up to 11 meters. Otherwise, in infrared communication, vehicles can communicate during the day up to 2 meters and at night up to 0.7 meter. The test was also carried out with some conditions such as rain, smoke, passers, and other vehicle lights.

scholarly journals Engine control unit based on the Ni compactrio platform

2011 ◽  
Vol 9 (3) ◽  
pp. 47-54 ◽  
Author(s):  
Michal Strapko ◽  
Radek Tichánek
Keyword(s):  
Control Unit ◽  
Engine Control Unit ◽  
Engine Control

SHRNUTÍ Byla vyvinuta programovatelna řidici jednotka na platformě CompactRIO s programem vytvořenym v prostředi LabVIEW. Jednotka byla vyvijena jako univerzalni a byla testovana při řizeni maleho zažehoveho motoru YAMAHA YZF R6. Jednotka je dale použitelna pro zažehove motory různe koncepce, přeplňovane i nepřeplňovane. Požadavku na univerzalnost jednotky byl přizpůsoben řidici program, ktery je uspořadan ve vzajemně komunikujicich samostatnych blocich. Zařizeni je rozšiřitelne o dalši I/O moduly, což umožňuje použiti dalšich snimačů, aktuatorů nebo modulů pro komunikaci. Rozhrani pro zesileni vystupů napajejicich zapalovani a vstřikovače bylo vyvinuto pro řizeni motoru YAMAHA YZF R6. Toto zařizeni zaroveň stabilizuje napajeni snimačů motoru a filtruje jejich vystupni signaly. Članek je shrnutim procesu vyvoje řidici jednotky motoru, obsahuje přehled použitych zařizeni, seznamuje s řidicim programem a zkušenostmi z testovani na motoru.

Design of a Motorcycle Engine Control Unit Using an Integrated Control-Implementation Approach

2004 ◽  
Vol 37 (22) ◽  
pp. 203-208
Author(s):  
Andrea Balluchi ◽  
Maria D. Di Benedetto ◽  
Alberto Ferrari ◽  
Giovanni Gaviani ◽  
Giovanni Girasole ◽  
...  
Keyword(s):  
Integrated Control ◽  
Control Unit ◽  
Engine Control Unit ◽  
Engine Control ◽  
Implementation Approach ◽  
Motorcycle Engine ◽  
Control Implementation

Development of an Injector Fault Insertion Tool for DI Gasoline and Diesel Engines

2016 ◽  
Author(s):  
Renato Yapaulo ◽  
Matthew Viele ◽  
Andrew Polk
Keyword(s):  
Diesel Engines ◽  
Control Unit ◽  
Engine Control Unit ◽  
Engine Control ◽  
Fuel Injector ◽  
Electrical Load ◽  
Control Software ◽  
Fuel Injectors ◽  
Running System ◽  
Insertion Tool

In order to ensure that every portion of the emission control software in a vehicle works, all fault conditions must be tested. Simply simulating faults in the software of the engine controller and reporting it to the OBD II scanner is inadequate; the fault condition must be injected externally to the Engine Control Unit (ECU). In the case of hard-to-reproduce mechanical failures, this is a challenging task. This paper discusses the development of a system capable of emulating various faults that a fuel injector can have while operating as part of a complete working vehicle. For the ECU to operate properly, all fuel injectors must be present in the vehicle, be fully functional, and must represent an accurate electrical load to the ECU. Then, the induced faults must be seamlessly inserted into the running system in less than 10μs and removed before the subsequent injection event. This was accomplished with a variety of COTS hardware, a simple custom circuit, and the use of a large, flexible FPGA platform.

scholarly journals PENINGKATAN DAYA DAN TORSI DENGAN MENGGUNAKAN SOFTWARE “BITEDIT” DI MESIN I-VTEC TYPE HONDA JAZZ

2020 ◽  
Vol 5 (2) ◽  
pp. 39
Author(s):  
Fikri Fauzan Ramadhan ◽  
I. Gede Eka Lesmana
Keyword(s):  
Fuel Injection ◽  
Control Unit ◽  
Engine Control Unit ◽  
Engine Control

<p>Mesin yang berbasis <em>Electronic Fuel Injection</em> (EFI) banyak digunakan karena menghasilkan performa yang tinggi dengan konsumsi bahan bakar yang sedikit dan gas emisi buang rendah. Namun ketika kendaraan berbasis EFI sudah digunakan lebih dari 5 tahun biasanya akan mengalami penurunan kinerja motor bersin yang berpengaruh pada performa ataupun kecepatan kendaraan tersebut. Oleh karena itu harus dilakukan servis <em>tuning</em>untuk meningkatkan kinerja motor pembakaran dalam dengan cara menyetting (<em>Engine Control Unit</em>) ECU dari mobil tersebut agar menormalkan atau memperbaiki daya yang dihasilkan. Penelitian ini melakukan program remapping ECU dengan menggunakan software <em>BitEdit</em> yang diaplikasikan pada mesin I-VTEC<em>type</em> honda jazz. Berdasarkan data penelitian, setelah dilakukan <em>remapping </em>pada spesifikasi dasar terdapat peningkatan jarak tempuh kendaraan, efisiensi kendaraan, daya, dan torsi. Hasil pengujian daya juga menunjukkan peningkatan setelah dilakukan <em>remapping </em>yaitu dengan selisih daya terbesar mencapai 10.21 kW. Selain itu hasil pengujian torsi menunjukkan terdapat peningkatan torsi yaitu rata-rata sebesar 5.7 N.m.</p>

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