Specifications
Main

Applies to
neoVI Blue

Device

* Power Consumption (typical) : 150mA @ 14.4 VDC
* Sleep Mode Power Consumption (typical) : 3mA @ 14.4 VDC  
* Power Supply: vehicle compatible 5.5-20.0 VDC
* Physical Dimensions : 120 x 70 x 25 mm ( 4.8 " x 2.8 " x 1.0" )
* Weight:  113 g ( 4 oz )
* Non USB Temperature Range: -40 to 85 C
* USB Temperature Range: 0 to 70 C 
* Vehicle Connector : 25 Pin male D-SUB
* Standard PC/Host Connectors: USB downstream, RS232 9PIN D-SUB Female
* RS232 port capable of 115.2 kb, 57.6 kb, 38.4 kb, 28.8 kb, 19.2 kb, 9600 bps, and 4800 bps baud rates. Control lines include hardware handshaking (RTS/CTS) and DTR acting as a DCE (Data Communication Equipment) device.
* Warranty: One year limited warranty
* Firmware: Field upgradeable design (flash EEPROM)
* On board Processing: 20 MIPS RISC based multi-controller design
* Expansion: Internal 5Mhz SPI interface and External Device Timestamp Synchronization
* Bicolor user notification LED (red-green) is user configurable or can change on network activity, trigger or IO pin.
* General Purpose IO: Seven IO configurable as input or output. Four configurable as 10 bit analog inputs. One configurable for external wakeup. ISO K and L Lines available as general purpose outputs. K Line available is general purpose input.
* General Purpose IO rate report interval 1-100 ms or based on digital change. Analog input sampling rate is 1 ms per channel.
* On board 9-bit IC temperature sensor with a range of -55 to 125 C (-67 to 257 F) .
* On board non-volatile storage: 32KByte EEPROM and MMC (Multimedia Card Card) slot for up to 64Mbytes of on board storage.
* EMI Shielded Enclosure
* Emulation of General Motors VSI Interface via RS232

Networks - General

* Time stamping to accuracy of 100uS on CAN networks, J1708 network, and Ford SCP network. 250 µs on Class 2 / J1850 VPW and ISO/KW2K.  Timestamp rollover is greater than 1 year.
* Simultaneous operations on all networks with aggregate bandwidth performance of 2 mega baud over USB.
* Transmit message double-buffering on all networks allows back to back message transmission.
* Multiple hardware triggers allow bit-wise filter specifications on entire message (first 12 bytes for block type messages)
* Generation of scan clock with correlated start message timestamp for synchronization of external data acquisition equipment
* Device wake up on network activity on any network.

High Speed CAN

* ISO11898 Dual Wire CAN Physical Layer (82C251)
* CAN 2.0B active
* MCP2510 CAN controller with support for loop-back and  listen-only operation.
* Optimized Rx and Tx circuitry
* Up to 1 M-Bit software selectable baud rate
* Graphical Bit Time/Baud Rate Calculator

Medium Speed CAN

* ISO11898 Dual Wire CAN Physical Layer (82C251)
* CAN 2.0B active
* MCP2510 CAN controller with support for loop-back and  listen-only operation.
* Up to 1 M-Bit software selectable baud rate
* Graphical Bit Time/Baud Rate Calculator

Low Speed Fault Tolerant CAN

* ISO11519 Low Speed Fault Tolerant CAN Physical Layer (TJA1054)
* CAN 2.0B active
* MCP2510 CAN controller with support for loop-back and  listen-only operation.
* Software selectable baud rate/bit timing up to limitations of physical layer.
* Graphical Bit Time/Baud Rate Calculator

Single Wire CAN

* Single Wire CAN physical layer GMW3089/ SAE J2411 (TLE6255)
* CAN 2.0B active
* MCP2510 CAN controller with support for loop-back and  listen-only operation.
* High Speed Mode, High Speed Test Tool Mode, and High Voltage Wakeup support
* Software selectable baud rate/bit timing up to limitations of physical layer.
* Graphical Bit Time/Baud Rate Calculator

GM Class 2/ SAE J1850 VPW

* VPW Physical Layer capable of Tx and Rx operations in high speed modes (MC33390)
* Software controlled peripheral based VPW generation
* Software modifiable bit timing acceptance parameters
* Software modifiable bit timing generation parameters
* Trigger generation based on network error or lost arbitration event
* Bad CRC generation
* 4x high speed mode (limited simultaneous operations at 41.6 k-bits)
* Block transfer mode
* Break generation
* Bad Message generation capable

UART/ISO9141/Keyword 2000 (ISO14230)

* K and L lines implemented
* UART Based state machine
* Initialization waveforms including Fast Init, Five Baud, CARB and Custom
* Programmable timing parameters including inter-byte, TX inter-frame, RX inter-frame and initialization waveforms (0.5 ms resolution)
* Software selectable baud rate
* Socket selectable pull up resistor on both K and L lines
* Jumper selectable pull up voltage either 5V or Battery
* K and L have software controlled transmit enable lines allowing many different variants of UART or ISO9141 communications including: Tx on L Rx on K; Tx and Rx on K; Tx on K and L and Rx on K

Ford SCP/ SAE J1850 PWM 

* Dual BCC Design : LBCC Communications Protocol IC Tx/Rx with optional "Monitor Mode" performed by a additional processor 
* Software setup of LBCC including the Node Address, Lookup Table 1 and 2, and the Network Driver and Receive Control Register
* Software selectable SCP bit rate of 41.6 kbps or 83.3 kbps
* Dynamic Node Address mode: LBCC is reconfigured when a message to be transmitted has a different node address then previously configured

SAE J1708

* SAE J1708 Physical Layer
* Software setup of SAE J1708 parameters

 

 neoVI   Documentation - (C) Copyright 2000-2020 Intrepid Control Systems, Inc.

Last Update: Wednesday, June 04, 2014