neoVI API Docs
All DocsProductsLearning CenterSupport
  • The neoVI API - Create your own software applications
  • Basic Operation - neoVI API
    • Using the neoVI API in Visual Studio: 32 bit DLL and 64 bit OS - neoVI API
    • Using the intrepidcs API in Visual Basic - neoVI API
    • Using the neoVI API in Visual C++ - neoVI API
    • Using the neoVI API in C# - neoVI API
    • Using the neoVI API in Borland C++ Builder - neoVI API
    • Using the neoVI API in Delphi - neoVI API
    • Using the API in LabVIEW - neoVI API
    • Using the neoVI API in LabWindows CVI - neoVI API
    • Unity3D Graphic Display API
    • Using the neoVI API in Excel - neoVI API
  • WIN32 API Overview - neoVI API
    • Basic Functions Overview - neoVI API
      • FindDevices Method
      • OpenNeoDevice Method - neoVI API
      • ClosePort Method - neoVI API
      • FreeObject Method - neoVI API
    • Message Functions Overview - neoVI API
      • GetMessages Method - neoVI API
      • TxMessages Method - neoVI API
      • TxMessagesEx Method - neoVI API
      • WaitForRxMessagesWithTimeOut Method - neoVI API
      • GetTimeStampForMsg Method - neoVI API
      • ISO15765 Message Functions Overview - neoVI API
        • ISO15765_EnableNetworks Method - neoVI API
        • ISO15765_TransmitMessage Method - neoVI API
        • ISO15765_ReceiveMessage Method - neoVI API
      • Transmitting Long Messages - neoVI API
    • Device Settings Functions Overview - neoVI API
      • GetConfiguration Method - neoVI API
      • SendConfiguration Method - neoVI API
      • neoVI Fire - neoVI API
        • GetFireSettings Method - neoVI API
        • SetFireSettings Method - neoVI API
      • neoVI FIRE 2 - neoVI API
        • GetFIRE2Settings Method - neoVI API
        • SetFire2Settings Method - neoVI API
      • ValueCAN3 - neoVI API
        • GetVCAN3Settings Method - neoVI API
        • SetVCAN3Settings Method - neoVI API
      • ValueCAN 4-1 and 4-2 - neoVI API
        • GetVCAN412Settings Method - neoVI API
        • SetVCAN412Settings Method - neoVI API
      • ValueCAN 4-4 - neoVI API
        • GetVCAN4Settings Method - neoVI API
        • SetVCAN4Settings Method - neoVI API
      • ValueCAN RF - neoVI API
        • GetVCANRFSettings Method - neoVI API
        • SetVCANRFSettings Method - neoVI API
      • RAD Galaxy - neoVI API
        • GetRADGalaxySettings Method - neoVI API
        • SetRADGalaxySettings Method - neoVI API
      • General Device Settings - neoVI API
        • SetBitRate Method - neoVI API
        • SetFDBitRate Method - neoVI API
        • GetDeviceSettings Method - neoVI API
        • SetDeviceSettings Method - neoVI API
        • GetHWFirmwareInfo Method - neoVI API
        • GetDLLFirmwareInfo Method - neoVI API
        • ForceFirmwareUpdate Method - neoVI API
        • GetDeviceParameters Method - neoVI API
        • SetDeviceParameters Method - neoVI API
        • SetReflashDisplayCallbacks Method - neoVI API
        • ClearReflashDisplayCallbacks Method - neoVI API
        • GetRTC Method - neoVI API
        • SetRTC Method - neoVI API
    • Error Functions Overview - neoVI API
      • GetLastAPIError Method - neoVI API
      • GetErrorMessages Method - neoVI API
      • GetErrorInfo Method - neoVI API
      • Error Messages - neoVI API
    • General Utility Functions Overview - neoVI API
      • ValidateHObject Method - neoVI API
      • GetDLLVersion Method - neoVI API
      • StartSocketServer Method - neoVI API
      • StopSocketServer Method - neoVI API
      • GetPerformanceParameters Method - neoVI API
      • ReadWritePhySettings Method - neoVI API
      • EnableDOIPLine Method - neoVI API
      • GetGPTPStatus Method - neoVI API
    • Deprecated Functions Overview - neoVI API
      • OpenPortEx Method - neoVI API
        • OpenPortEx Hardware Type Information - neoVI API
      • FindAllCOMDevices Method - neoVI API
      • FindAllUSBDevices Method - neoVI API
      • FindNeoDevices Method - neoVI API
      • EnableNetworkCom Method - neoVI API
      • CoreMini Script interface Overview - neoVI API
        • ScriptStart Method - neoVI API
        • ScriptStop Method - neoVI API
        • ScriptLoad Method - neoVI API
        • ScriptClear Method - neoVI API
        • ScriptStartFBlock Method - neoVI API
        • ScriptGetFBlockStatus Method - neoVI API
        • ScriptStopFBlock Method - neoVI API
        • ScriptGetScriptStatus Method - neoVI API
        • ScriptReadAppSignal Method - neoVI API
        • ScriptWriteAppSignal Method - neoVI API
    • Structures, Types, and Defines Overview - neoVI API
      • Setting Structures Overview - neoVI API
        • SFireSettings Structure
        • SFire2Settings Structure
        • SVCAN3Settings Structure
        • SVCANRFSettings Structure
        • SVCAN412Settings Structure
        • SVCAN4Settings Structure
        • SVCAN4IndSettings Structure
        • SRADGalaxySettings Structure
        • SRADStar2Settings Structure
        • SRADPlutoSettings Structure
        • SRADSuperMoonSettings Structure
        • SRADMoon2Settings Structure
        • SDeviceSettings Structure
        • Sub Setting Structures Overview - neoVI API
          • CAN_SETTINGS Structure
          • SWCAN_SETTINGS Structure
          • CANFD_SETTINGS Structure
          • LIN_SETTINGS Structure
          • ISO9141_KEYWORD2000_SETTINGS Structure
          • ISO9141_KEYWORD2000__INIT_STEP Structure
          • ETHERNET_SETTINGS Structure
          • ETHERNET_SETTINGS2 Structure
          • OP_ETH_GENERAL_SETTINGS Structure
          • OP_ETH_SETTINGS Structure
          • SPluto_CustomParams Structure
          • UART_SETTINGS Structure
          • RAD_GPTP_SETTINGS Structure
          • LOGGER_SETTINGS Structure
          • DISK_SETTINGS Structure
          • TIMESYNC_ICSHARDWARE_SETTINGS Structure
          • RAD_REPORTING_SETTINGS Structure
          • STextAPISettings Structure
          • gPTP Structures
            • GPTPStatus Structure
            • timestamp Structure
            • priority_vector Structure
            • port_identity Structure
            • clock_quality Structure
            • system_identity Structure
        • NeoDevice Structure
        • NeoDeviceEx Structure
        • stAPIFirmwareInfo Structure
        • Message Structures - neoVI API
        • Status Bitfields - neoVI API
        • Using an array instead of a message structure - intrepidcs API
        • icsSpyTime Structure
        • stCM_ISO157652_TxMessage Structure
        • stCM_ISO157652_RxMessage Structure
        • Valid parameter names for the SetDeviceParameter and GetDeviceParameter methods
        • neoVI API Data Types
        • PhyRegPktClauseMess_t Structure
        • neoVI Network ID List
  • Development FAQ's
    • How do I detect and handle disconnects?
    • How do I set parameters on a neoVI device?
    • How do I open more than one channel on a single piece of hardware? - neoVI API
    • How do I communicate on LIN - neoVI API
    • How do I send a Extended Frame or a High Voltage Wakeup or ISO9141/KW2K Init? - neoVI API
  • Unix-like Operating Systems - Support
  • J2534 Support - neoVI API
  • Vehicle Spy Text API
    • ECU Object - Vehicle Spy Text API
    • Labview Text API Interface to Vehicle Spy 3
  • Vehicle Spy VSB file Spec
  • Contact Us
    • Contact Information - Intrepid Control Systems, Inc
Powered by GitBook
LogoLogo

Applications

  • Cybersecurity
  • Data Logging
  • Simulate ECU Functions
  • Diagnostics, Testing and Validation

Products

  • Vehicle Network Adapters
  • Data Loggers
  • Software
  • Automotive Ethernet Tools

Support

  • Support Resources
  • Contact Support
  • Class Schedule & Registration
  • Training Video Library

Company

  • About
  • News
  • Events
  • Contact Us

Copyright © 2025 | All Rights Reserved

On this page
Edit on GitHub
Export as PDF
  1. WIN32 API Overview - neoVI API
  2. Structures, Types, and Defines Overview - neoVI API
  3. Setting Structures Overview - neoVI API

SVCANRFSettings Structure

This structure defines various settings for the ValueCAN RF device

typedef struct __declspec (align(2))
{
CAN_SETTINGS can1;
CAN_SETTINGS can2;
CAN_SETTINGS can3;
CAN_SETTINGS can4;
LIN_SETTINGS lin1;
LIN_SETTINGS lin2;
unsigned short network_enables;
unsigned short network_enabled_on_boot;
unsigned int pwr_man_timeout;
unsigned short pwr_man_enable;
unsigned short misc_io_initial_ddr;
unsigned short misc_io_initial_latch;
unsigned short misc_io_analog_enable;
unsigned short misc_io_report_period;
unsigned short misc_io_on_report_events;
unsigned short iso15765_separation_time_offset;
ISO9141_KEYWORD2000_SETTINGS iso9141_kwp_settings;
unsigned short perf_en;
unsigned short iso_parity;
unsigned short iso_msg_termination;
unsigned short iso_tester_pullup_enable;
unsigned short network_enables_2;
ISO9141_KEYWORD2000_SETTINGS iso9141_kwp_settings_2;
unsigned short iso_parity_2;
unsigned short iso_msg_termination_2;
unsigned short idle_wakeup_network_enables_1;
unsigned short idle_wakeup_network_enables_2;
unsigned short disableFwLEDs;
}SVCANRFSettings;
<StructLayout(LayoutKind.Sequential, Pack:=2)> Public Structure SVCANRFSettings
Dim can1 As CAN_SETTINGS
Dim can2 As CAN_SETTINGS
Dim can3 As CAN_SETTINGS
Dim can4 As CAN_SETTINGS
Dim lin1 As LIN_SETTINGS
Dim lin2 As LIN_SETTINGS
Dim network_enables As UInt16
Dim network_enabled_on_boot As UInt16
Dim pwr_man_timeout As UInt32
Dim pwr_man_enable As UInt16
Dim misc_io_initial_ddr As UInt16
Dim misc_io_initial_latch As UInt16
Dim misc_io_analog_enable As UInt16
Dim misc_io_report_period As UInt16
Dim misc_io_on_report_events As UInt16
Dim iso15765_separation_time_offset As UInt16
Dim iso9141_kwp_settings As ISO9141_KEYWORD2000_SETTINGS
Dim perf_en As UInt16
Dim iso_parity As UInt16
Dim iso_msg_termination As UInt16
Dim iso_tester_pullup_enable As UInt16
Dim network_enables_2 As UInt16
Dim iso9141_kwp_settings_2 As ISO9141_KEYWORD2000_SETTINGS
Dim iso_parity_2 As UInt16
Dim iso_msg_termination_2 As UInt16
Dim idle_wakeup_network_enables_1 As UInt16
Dim idle_wakeup_network_enables_2 As UInt16
Dim disableFwLEDs As UInt16
End Structure
[StructLayout(LayoutKind.Sequential,Pack=2)]
public struct SVCANRFSettings
{
public CAN_SETTINGS can1;
public CAN_SETTINGS can2;
public CAN_SETTINGS can3;
public CAN_SETTINGS can4;
public LIN_SETTINGS lin1;
public LIN_SETTINGS lin2;
public UInt16 network_enables;
public UInt16 network_enabled_on_boot;
public UInt32 pwr_man_timeout;
public UInt16 pwr_man_enable;
public UInt16 misc_io_initial_ddr;
public UInt16 misc_io_initial_latch;
public UInt16 misc_io_analog_enable;
public UInt16 misc_io_report_period;
public UInt16 misc_io_on_report_events;
public UInt16 iso15765_separation_time_offset;
public ISO9141_KEYWORD2000_SETTINGS iso9141_kwp_settings;
public UInt16 perf_en;
public UInt16 iso_parity;
public UInt16 iso_msg_termination;
public UInt16 iso_tester_pullup_enable;
public UInt16 network_enables_2;
public ISO9141_KEYWORD2000_SETTINGS iso9141_kwp_settings_2;
public UInt16 iso_parity_2;
public UInt16 iso_msg_termination_2;
public UInt16 idle_wakeup_network_enables_1;
public UInt16 idle_wakeup_network_enables_2;
public UInt16 disableFwLEDs;
}

Remarks

Item
Description

can1

can2

can3

can4

lin1

lin2

network_enables

Bitfield containing the software license enables. Depending on the hardware license purchased the customer may have to conditionally select which hardware channels to enable. For example the neoVI Red license allows the user to enable any 2 Dual Wire CAN channels and any 2 LIN channels. To enable a specific network its corresponding bit must be set (1). In order to transmit or receive on a network it must be enabled.

network_enabled_on_boot

Normally neoVI only initiates its comm channels when CoreMini is running or if neoVI is online with DLL/Vehicle Spy 3. Practically this means the the CAN controllers stay in Listen Only mode until the device goes online. Once online the neoVI loads the user settings. Setting this parameter to 1 will change this behavior so that the neoVI enables its controllers immediately on boot.

Default value = 0

pwr_man_timeout

Number of milliseconds of no bus activity required before neoVI enters low power mode. Note pwr_man_enable must be set for power management to be enabled.

Default value = 10000

pwr_man_enable

1 = enable Power Management, 0 = disable.

Default value = 0

misc_io_initial_ddr

MISC IO Initial Data Direction Register. Controls the initial data direction of the tri-states on all misc digital pins. Each bit corresponds to an individual misc pin. Bit value of 0 signifies an input and bit value 1 signifies and output. Bit values corresponding to non existent pins (EX MISC7-MISC15 on FIRE) have no effect.

Default value = 0

Examples:

Set MISC1 to be output, all else input: misc_io_initial_ddr = 1

Set MISC1and MISC2 to be output, all else input: misc_io_initial_ddr = 3 (11 binary)

Set all MISC pins to output: misc_io_initial_ddr = 65535 (1111111111111111 binary)

misc_io_initial_latch

MISC IO Initial Latch Register. Controls the initial output latch value on all misc digital pins. Each bit corresponds to an individual misc pin. Bit value of 0 signifies an low voltage and bit value 1 signifies high voltage. Bit values corresponding to non existent pins (EX MISC7-MISC15 on FIRE) have no effect.

Default value = 0

Examples:

Set MISC1 to be high, all else low: misc_io_initial_latch = 1

Set MISC1and MISC2 to be high, all else low: misc_io_initial_latch = 3 (11 binary)

Set all MISC pins to high: misc_io_initial_latch = 65535 (1111111111111111 binary)

Note: In order for digital outputs to work correctly the corresponding bit in misc_io_initial_ddr must be set to output and corresponding bit in misc_io_analog_enable must be cleared.

misc_io_analog_enable

MISC IO Analog Enable Register. Controls the initial analog enables on all misc analog pins. Each bit corresponds to an individual misc pin that supports analog input. Bit value of 0 signifies that corresponding misc pin is digital only, and bit value 1 signifies corresponding misc pin is analog. Note that because some MISC pins are not capable of analog they are not included in the register. For example neoVI FIRE’s analog pins are MISC3-MISC6, therefore bit 0 corresponds to MISC3’s analog enable. Bit values corresponding to non existent pins have no effect.

Default value = 0

Examples:

Set MISC3 to be analog, all else digital. (neoVI FIRE) : misc_io_analog_enable = 1

Set MISC3 and MISC4 to be analog, all else digital. (neoVI FIRE): misc_io_analog_enable = 3 (11 binary)

Set all MISC pins to high: misc_io_analog_enable = 65535 (1111111111111111 binary) Note: that in order for analog inputs to work correctly the corresponding bit in misc_io_analog_enable must be set to 1.

misc_io_report_period

Period in milliseconds of device report message holding digital and analog data.

Default value = 100

Note: Periodic reporting requires misc_io_on_report_events[0] to be set.

misc_io_on_report_events

Period in milliseconds of device report message holding digital and analog data.

Default value = 100

Note: Periodic reporting requires misc_io_on_report_events[0] to be set.

iso15765_separation_time_offset

In an ISO15765-2 Transmission, the receiver transmits a flow control message that informs that transmitter how much time there should be between individual CAN messages. This parameter allows the user to shift that spacing to make it smaller or larger. Valid range is -1563 to 1563 units where each unit represents 6.4us. Defaults to 0. If IFS plus the offset is negative than the Tx Messages will be back to back.

Default value = 0

Examples:

ISO15765-2 Tx Message Inner frame spacing is exactly what is specified in flow control message: iso15765_separation_time_offset = 0

ISO15765-2 Tx Message Inner frame spacing is what’s specified in flow control message.+ 998.4 us: iso15765_separation_time_offset = 156

ISO15765-2 Tx Message Inner frame spacing is what’s specified in flow control message.- 998.4 us: iso15765_separation_time_offset = -156

iso9141_kwp_settings

See ISO9141_KEYWORD2000_SETTINGS structure

perf_en

Performance test. Default value = 0

iso_parity

ISO9141 Parity setting: 0 - no parity, 1 - even, 2 - odd

iso_msg_termination

ISO9141 message termination setting: 0 - use inner frame time 1 - GME CIM-SCL

iso_tester_pullup_enable

Not Available

network_enables_2

Bitfield containing the software license enables. Depending on the hardware license purchased the customer may have to conditionally select which hardware channels to enable. For example the neoVI Red license allows the user to enable any 2 Dual Wire CAN channels and any 2 LIN channels. To enable a specific network its corresponding bit must be set (1). In order to transmit or receive on a network it must be enabled.

iso9141_kwp_settings_2

iso_parity_2

ISO9141 Parity setting: 0 - no parity, 1 - even, 2 - odd

iso_msg_termination_2

ISO9141 message termination setting: 0 - use inner frame time 1 - GME CIM-SCL

idle_wakeup_network_enables_1

Bitfield containing list of hardware networks to look at for sleep enable. To enable a specific network its corresponding bit must be set (1). In order to transmit or receive on a network it must be enabled.

idle_wakeup_network_enables_2

Bitfield containing list of hardware networks to look at for sleep enable. To enable a specific network its corresponding bit must be set (1). In order to transmit or receive on a network it must be enabled.

disableFwLEDs

Disables the LEDs on the device.

PreviousSVCAN3Settings StructureNextSVCAN412Settings Structure

Last updated 5 months ago

See structure

See structure

See structure

See structure

See structure

See structure

See structure

HSCAN : 0

MSCAN : 1

LIN1 : 2

LIN2 : 3

VIRTUAL : 4

HSCAN2 : 5

LSFTCAN1 : 6

SWCAN1 : 7

HSCAN3 : 8

GMCGI : 9

J1850 : 10

LIN3 : 11

LIN4 : 12

J1708 : 13

HSCAN4 : 14

HSCAN5 :15

KLINE1 : 0

KLINE2 : 1

KLINE3 : 2

KLINE4 : 3

FLEXRAY1A : 4

UART : 5

UART2 :6

LIN5 : 7

MOST25 : 8

MOST50 : 9

FLEXRAY1B : 10

SWCAN2 : 11

ETHERNET_DAQ : 12

ETHERNET : 13

FLEXRAY2A : 14

FLEXRAY2B :15

HSCAN : 0

MSCAN : 1

LIN1 : 2

LIN2 : 3

VIRTUAL : 4

HSCAN2 : 5

LSFTCAN1 : 6

SWCAN1 : 7

HSCAN3 : 8

GMCGI : 9

J1850 : 10

LIN3 : 11

LIN4 : 12

J1708 : 13

HSCAN4 : 14

HSCAN5 : 15

KLINE1 : 0

KLINE2 : 1

KLINE3 : 2

KLINE4 : 3

FLEXRAY1A : 4

UART : 5

UART2 :6

LIN5 : 7

MOST25 : 8

MOST50 : 9

FLEXRAY1B : 10

SWCAN2 : 11

ETHERNET_DAQ : 12

ETHERNET : 13

FLEXRAY2A : 14

FLEXRAY2B :15

CAN_SETTINGS
CAN_SETTINGS
CAN_SETTINGS
CAN_SETTINGS
LIN_SETTINGS
LIN_SETTINGS
ISO9141_KEYWORD2000_SETTINGS