industry news
Subscribe Now

New Automotive Diagnostics Communications Chip Integrates Multiple Configurable Automotive Buses, MOSFET Switch Array and Power Management Functions

San Jose, CA October 28, 2013 – Fabless Analog ASIC Company, JVD Inc., a leader in Custom Analog ICs, has announced the volume production of its newest automotive integrated circuit, the JV700, an ODB-II Diagnostics Interface/Controller.  Designed and produced for Launch Tech Co., Ltd, a leader in professional automotive diagnostics equipment, the JV700 is a custom Analog ASIC that resides in a small dongle that plugs into the vehicle’s ODB-II connector (typically located under the dash). The JV700 incorporates all the critical analog functions required to interface and communicate through the ODB-II connector with all major automotive buses. The chip receives instructions to configure a complex array of low RDS(on) MOSFET switches that properly align the chip’s five bus transceivers to the correct ODB-II pins based on the vehicle’s make, model, year and VIN. The JV700 then communicates the vehicle information via a serial bus to a nearby microcontroller where the data is processed and communicated via Bluetooth to a cell phone or mobile computer for viewing.

The JV700 communicates with all of the standard ODB-II accessible Bus Protocols and can manage any three simultaneously:

ISO15765-4 (CAN) 
ISO14230-4 (KWP2000) 
ISO9141-2 
J1850 VPW 
J1850 PWM

The JV700 is packaged in a standard 48 pin QFN package. In addition to the switch matrix and five automotive bus transceivers, the chip also includes several power management elements (dc-dc converters and LDOs).

Launch Tech CTO, Oliver Zhang, cited, “Without the JV700 Analog ASIC, we would not have been able to create this state of the art diagnosis system. Consumers can now check their own vehicles for DTC errors and clear the codes themselves.”

Diagnostic Trouble Code (DTCs) are how ODB-II identifies and communicates to technicians where and what on-board problems exist. The first number in the DTC indicates whether the code is an SAE generic code (applies to all ODB-II systems) or is specific to the vehicle manufacturer. The remaining three numbers provide information regarding the specific vehicle system and circuit. An analysis of a typical ODBII code is shown below.

While these communication protocol standards are universal, not every make and model uses the same pins on the ODB-II connector to access the information, making universal diagnosis all but impossible without the circuitry found in the JV700.

To further complicate diagnostic testing, there remain several pins in the ODB-II connector that are unspecified and their use is left to the vehicle manufacturer’s discretion.  These unassigned pins are available for use by the manufacturer for things such as airbags, alarms, remotes, and more and their use varies widely among the world’s car manufacturers and even among different models produced by a single manufacturer. The JV700 can connect and communicate with the unassigned pins to read and manage the peripheral information as well.

Once the JV700 orients its configuration for the appropriate make, model, year vehicle, the information it accesses is communication across a serial bus to a microcontroller and the results are then communicated wirelessly to be viewed on a cell phone or mobile computer via Bluetooth. A typical mobile phone display will look something like this:

Automotive environments require that additional protection, not typically required in more mainstream applications be designed into the IC. The JV700 incorporates all required protection features typically found in automotive semiconductors, including Reverse Battery Protection, Double-Battery Jump Start, which occurs when a tow truck or other service personnel use 24V to jump-start a disabled vehicle or otherwise charge a dead battery, and high ESD Protection.

About JVD, Inc.

JVD, Inc. is a full custom fabless semiconductor company specializing in Analog ICs. The company was founded in 1982 by Jerry VanDierendonck, a member of the TI team that in the late 1960’s, developed the world’s first microcontroller, TMS 1000. JVD is a leader in Custom Analog ASIC Design, Production and Testing. The company provides turn-key Analog and Analog-mixed signal ICs for custom and standard products. From design to final production, JVD, Inc. provides custom analog integrated circuit solutions for a wide variety of customers in the industrial, medical, automotive, communications and consumer markets. JVD Analog ASICs are cost effective, high performance devices the meet the challenging design requirements of our customers.  JVD, Inc is a privately held company with headquarters in San Jose, Calif. For more information, please visit www.jvdinc.com.

Leave a Reply

featured blogs
Oct 23, 2020
Processing a component onto a PCB used to be fairly straightforward. Through hole products, a single or double row surface mount with a larger center-line rarely offer unique challenges obtaining a proper solder joint. However, as electronics continue to get smaller and conne...
Oct 23, 2020
[From the last episode: We noted that some inventions, like in-memory compute, aren'€™t intuitive, being driven instead by the math.] We have one more addition to add to our in-memory compute system. Remember that, when we use a regular memory, what goes in is an address '...
Oct 23, 2020
Any suggestions for a 4x4 keypad in which the keys aren'€™t wobbly and you don'€™t have to strike a key dead center for it to make contact?...
Oct 23, 2020
At 11:10am Korean time this morning, Cadence's Elias Fallon delivered one of the keynotes at ISOCC (International System On Chip Conference). It was titled EDA and Machine Learning: The Next Leap... [[ Click on the title to access the full blog on the Cadence Community ...

featured video

Demo: Inuitive NU4000 SoC with ARC EV Processor Running SLAM and CNN

Sponsored by Synopsys

See Inuitive’s NU4000 3D imaging and vision processor in action. The SoC supports high-quality 3D depth processor engine, SLAM accelerators, computer vision, and deep learning by integrating Synopsys ARC EV processor. In this demo, the NU4000 demonstrates simultaneous 3D sensing, SLAM and CNN functionality by mapping out its environment and localizing the sensor while identifying the objects within it. For more information, visit inuitive-tech.com.

Click here for more information about DesignWare ARC EV Processors for Embedded Vision

featured paper

Designing highly efficient, powerful and fast EV charging stations

Sponsored by Texas Instruments

Scaling the necessary power for fast EV charging stations can be challenging. One solution is to use modular power converters stacked in parallel. Learn more in our technical article.

Click here to download the technical article

Featured Chalk Talk

Addressing Digital Implementation Challenges with Innovative Machine Learning Techniques

Sponsored by Cadence Design Systems

Machine learning is revolutionizing our designs these days with impressive new capabilities. But, have you considered using machine learning to actually create better designs? In this episode of Chalk Talk, Amelia Dalton chats with Rod Metcalf of Cadence Design Systems about how Cadence is using machine learning to help us get more out of our design tools - optimizing a wide range of design automation processes go give us better results in less time.

Click here for more information about Innovus Implementation System