Related Manuals for Divio NRM 301
Summary of Contents for Divio NRM 301
- Page 1 Contents Network Viedo Recorder User Manual The manual is applied to the following model: Model No: NRM 301 Note: The manual is subject to change without notic...
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Page 2: Declaration Of Conformity
Acknowledgements The product(s) described in this manual complies with all applicable NRM301 is a trademark of Divio Tec International Co., Ltd. All other product European Union (CE) directives if it has a CE marking. For computer systems names mentioned herein are registered trademarks of their respective owners. - Page 3 In order to meet the RoHS compliant directives, Divio Tec has established an engineering and manufacturing task force in to implement the introduction of green products. The task force will ensure that we follow the standard Divio Tec development procedure and that all the new RoHS components and new manufacturing processes maintain the highest industry quality levels for which Divio Tec are renowned.
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Page 4: Safety Information
Contents Warnings Installation Recommendations Read and adhere to all warnings, cautions, and notices in this guide and Ensure you have a stable, clean working environment. Dust and dirt can the documentation supplied with the chassis, power supply, and accessory get into components and cause a malfunction. Use containers to keep modules. - Page 5 Contents ▪ If the equipment is not used for a long time, disconnect it from the power Safety Precautions source to avoid damage by transient overvoltage. ▪ Read these safety instructions carefully. ▪ Never pour any liquid into an opening. This may cause fire or electrical ▪...
- Page 6 Contents Technical Support and Assistance Conventions Used in this Manual 1. For the most updated information of Divio Tec products, visit Divio Tec’s Warning: website at www.Divio Tec.com. Information about certain situations, which if not observed, can cause personal injury. This will prevent injury to yourself 2.
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Page 7: Table Of Contents
Contents ontents Preface SIM1 and SIM2 Sockets ....................8 CFast ............................. 8 Copyright ..........................v Line-out2 ..........................9 Disclaimer ..........................v Mic2 ............................9 Acknowledgements ......................v Line-out1 ..........................10 Regulatory Compliance Statements ................v Mic1 ............................10 Declaration of Conformity ....................v LAN1 and LAN2 Ports ....................11 RoHS Compliance ........................ - Page 8 Contents COM2 RI/Power Select ....................21 Appendix A: Software Demo Utility for I/O Ports of MiniCard (CN26) Power Selection ................22 Function Control WWAN Module Selection Table Menu Screen ........................43 (For Wake-Up & Voice Functions on Mini-PCIe CN26) ........23 1.1 Status .........................44 Input Voltage Setup Selection ..................24 1.2 Input Voltage ......................44 RTC Battery Connector....................25...
- Page 9 Contents MCU-DIO Pinout Description ..................57 Appendix G: Pin Definition for GPS Dead Reckoning Digital Input .........................57 Module -- VIOB-GPS-DR02 Digital Output ........................58 S2532DR Overview ......................88 Event Button ........................58 Technical Specifications ....................88 Pre-Alarm Function by Event Button, MCU-DI and MCU-DO ......60 Setting up Pre-Alarm function ..................60 Appendix H: Power Consumption......91 Activating Pre-Alarm function ..................61...
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Page 10: Physical Features
Contents 1: P haPter roduct ntroductIon Physical Features Front View Rear View DC IN USB 2.0 DisplayPort 9V-36V USB 3.0 Event SIM1 / SIM2 button indicators Reset slot cover CFast LINE OUT2 Mic1 LAN2 LAN1 GPIO/CAN/OBDII DC OUT Antenna holes SSD/HDD MIC2 Line-out 1... -
Page 11: Overview
Contents Overview Key Features NRM301, based on Intel Core™ quad core processor E3845 (1.91GHz), is • Intel Atom™ processor quad core E3845, 1.91GHz ® ® specifically designed for the harsh in-vehicle environment. It allows NRM301 • Three SIM cards + dual WWAN modules support to comply with stringent MIL-STD-810G military standard in rugged, fanless • Built-in U-blox UBX-G6010 GPS, optional Dead Reckoning support and compact mechanism. -
Page 12: Hardware Specifications
Contents ▪ 1x type A USB 3.0 compliant host, supporting system boot up Hardware Specifications ▪ 4x antenna hole for WWAN/WLAN/BT I/O Interface-Rear ▪ Intel Atom™ processor quad core E3845, 1.91GHz ® ▪ 1x 9~36VDC input with ignition and 19W typical power consumption ▪... - Page 13 Contents Operating System ▪ Windows 8, WES8 ▪ Windows 7, WES8 ▪ Fedora Dimensions ▪ 260 mm (W) x 176 mm (D) x 50 mm (H) (10.24” x 6.93” x 1.97”) ▪ Weight : 2.1kg Environment ▪ Operating temperatures: -30°C to 70°C (w/industrial SSD) with air flow -20°C to 50°C (w/commercial HDD) with air flow ▪...
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Page 14: Connector Numbering
Contents Connector Numbering The following diagrams indicate the numbers of the connectors. Use these numbers to locate the connectors’ respective pinout assignments on chapter 2 of the manual. ... -
Page 15: Event Button
Contents 2: e haPter xternal onnectors Inout escrIPtIon Event Button LED Indicators (HDD, WWAN, Power & WLAN) Connector Number: 1 Connector Number: 2 WWAN WLAN Definition LED Behavior Event Input Light On: HDD/SSD Active Light On: Power On Light Off: Power Off WWAN Blinking: Active WLAN... -
Page 16: Usb 3.0 Port
Contents USB 3.0 Port Reset Connector Number: 3 Connector Number: 4 Definition Definition Definition USB_N USB_P RESET USB3_RXN USB3_RXP USB3_TXN USB3_TXP... -
Page 17: Sim1 And Sim2 Sockets
Contents SIM1 and SIM2 Sockets CFast Connector Number: 5 Connector Number: 6 Definition Definition Definition Definition UIM1_PWR2 UIM1_RST2 SATA_TX1+ UIM1_CLK2 UIM1_DAT2 SATA_TX1- CFAST_LED1_C CFAST_LED2_C SATA_RX1- PC10 SATA_RX1+ PC11 PC12 CFAST_CDI PC13 VCC3 PC14 VCC3 PC15 PC16 PC17 CFAST_CDO... -
Page 18: Line-Out2
Contents Line-out2 Mic2 Connector Number: 7 Connector Number: 8 Definition Definition Definition Definition Headphone (mono) Detect Detect Headphone (mono) Mic-In (Right Channel) to WWAN module... -
Page 19: Line-Out1
Contents Line-out1 Mic1 Connector Number: 9 Connector Number: 10 Definition Definition Definition Definition Left Channel Mic-In (Left Channel) Detect Right Channel Detect... -
Page 20: Lan1 And Lan2 Ports
Contents LAN1 and LAN2 Ports Connector Number: 11 Connector Number: 12 Definition Definition Definition Definition MDI0P MDI0N VGA_RED VGA_GREEN MDI1P MDI2P VGA_BLUE VGA_GND MDI2N MDI1N VGA_GND VGA_GND MDI3P MDI3N VGA_GND VGA_GND VGA +5V VGA_GND LED1- LED1+ VGA_GND VGA_DATA LED2- LED2+ VGA_HS VGA_VS VGA_CLK... -
Page 21: Usb 2.0 Ports
Contents USB 2.0 Ports GPIO/CAN/OBDII Connector Number: 13 Connector Number: 14 USB1 GPIO Pin 9 Pin 16 Pin 1 Pin 8 OBDII USB2 USB1 Pin Connector Definition Definition Definition Definition Definition DATA1- CAN_H_SJA1000 GPIO1 (Default: GPI1) DATA1+ CAN_L_SJA1000 GPIO2 (Default: GPI2) CAN_1939_L GPIO3 (Default: GPI3) CAN_1939_H... -
Page 22: Displayport
Contents DisplayPort DC Output Connector Number: 15 Connector Number: 16 Definition Definition Definition Definition DP0_DATA0_P Voltage from Car Battery 12VDC Out (2A) (2A) DP0_DATA0_N DP0_DATA1_P SMB_CLK(For VTK61B) DP0_DATA1_N SMB_DAT(For VTK61B) DP0_DATA2_P DP0_DATA2_N DP0_DATA3_P DP0_DATA3_N CONFIG1 CONFIG2 DPC0_AUXP_C DPC0_AUXN_C RETURN DP0_PWR... -
Page 23: Dc Input 9V-36V
Contents DC Input 9V-36V COM3 (RS422/485) Connector Number: 17 Connector Number: 18 Definition Definition Definition GND_IN RS485_-/RS422_RX- V_IN RS485_+/RS422_RX+ IGNITION RS422_TX- RS422_TX+... -
Page 24: Com2 Rs-232 (Ri/5V/12V Selectable)
Contents COM2 RS-232 (RI/5V/12V Selectable) COM1 RS-232 (RI/5V/12V Selectable) Connector Number: 19 Connector Number: 20 Definition Definition Definition Definition DCD_2 RXD_2 DCD_1 RXD_1 TXD_2 DTR_2 TXD_1 DTR_1 DSR_2 DSR_1 RTS_2 CTS_2 RTS_1 CTS_1 RI/PW RI/PW... -
Page 25: Mcu-Dio
Contents MCU-DIO Connector Number: 21 Definition Definition MCU-DI1 MCU-DI2 MCU-DO1 MCU-DO2... -
Page 26: Before You Begin
Contents 3: J haPter umPers and wItches This chapter describes how to set the jumpers on the NRM301 motherboard. Before You Begin Precautions ▪ Ensure you have a stable, clean working environment. Dust and dirt can Computer components and electronic circuit boards can be damaged by get into components and cause a malfunction. -
Page 27: Jumper Settings
Contents Jumper Settings A jumper is the simplest kind of electric switch. It consists of two metal pins and a cap. When setting the jumpers, ensure that the jumper caps are placed on the correct pins. When the jumper cap is placed on both pins, the jumper is short. - Page 28 Contents NRM301 Connector Specification & Jumper Setting NRM301 carrier board placement The figure below is the carrier board used in the NRM301 system. It shows the locations of the jumpers and connectors. CN20 CN10 CN18 CN19 CN25 DIMM1 CN17 CN26 CN27 CN24...
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Page 29: Dip Switch Settings
Contents DIP Switch Settings GPIO Pull-High Setup RTC Clear Selection Connector location: SW1 Connector location: SW2 1 2 3 4 5 6 7 8 Normal(*) Clear ME Clear CMOS SW1.1 SW2.1 GPIO1 Pull-High 5V Open SW1.2 SW2.2 GPIO 2 Pull-High 5V Open SW2.3 GPIO 3 Pull-High 5V... -
Page 30: Com1 Ri/Power Select
Contents COM1 RI/Power Select COM2 RI/Power Select Connector location: SW3 Connector location: SW4 1 2 3 4 1 2 3 4 SW3.1 SW4.1 SW3.2 SW4.2 SW3.3(*) Ring SW4.3(*) Ring SW3.4 SW4.4 (*) Default (*) Default... -
Page 31: Minicard (Cn26) Power Selection
Contents MiniCard (CN26) Power Selection Connector location: SW6 3.3V(*) 3.6V SW6.1 SW6.2 (*) Default... - Page 32 Contents WWAN Module Selection Table (For Wake-Up & Voice Functions on Mini-PCIe CN26) Connector location: SW8 If SMS/Ring Wake Up function or/and Voice Funciton is/are not needed, the setting on SW8 can be ignored. 1 2 3 4 WWAN Module SW8.1 SW8.2 SW8.3...
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Page 33: Input Voltage Setup Selection
Contents Input Voltage Setup Selection Connector location: SW9 9V~36V all can start SW9.1 SW9.2 Don’t Care (*) Default... -
Page 34: Rtc Battery Connector
Contents Connectors RTC Battery Connector Debug 80 Port Connector Connector size: 1 x 2 = 2-pin header (1.25mm) Connector size: 1 x 10 = 10-pin header (1.0mm) Connector location: J9 Connector location: J13 Definition Definition Definition PCIRST# RTC_BAT 33M_CLK LPC_FRAME# LPC_AD3 LPC_AD2 LPC_AD1... - Page 35 Contents COM Port Connecter (COM1 RS-232) COM Port Connecter (COM2 RS-232) Connector size: 2 x 5 = 10-pin header (2.00mm) Connector size: 2 x 5 = 10-pin header (2.00mm) Connector location: CN18 Connector location: CN19 Definition Definition Definition Definition DCD_1 RXD_1 DCD_2 RXD_2...
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Page 36: Com Port Connecter (Com3 - Rs422/485)
Contents COM Port Connecter (COM3 - RS422/485) MCU-DIO Connector Connector size: 2 x 5 = 10-pin header (2.00mm) Connector size: 1 x 10 = 10-pin header (1.0mm) Connector location: CN20 Connector location: CN10 Definition Definition Definition Definition RS485_-/RS422_RX- SIO_RTS_1 RS485_+/RS422_RX+ SIO_TXD_1 SIO_CTS_1 SIO_RXD_1... -
Page 37: Reset Button (Reserved)
Contents Reset Button (Reserved) Power Button Connector (Reserved) Connector size: 1 x 2 = 2-pin header (1.25mm) Connector size: 1 x 2 = 2-pin header (2.5mm) Connector location: J17 Connector location: J20 Definition Definition 1-2 Open NORMAL 1-2 Short RESET#... -
Page 38: Sata Hdd Connector
Contents SATA HDD Connector OBDII Module Connector Connector size: CN7, 1 x 4 = 4-pin header (2.54mm) Connector size: 2 x 5 = 10-pin header (2.0mm) CN9 1 x 7 = 7-pin header (1.27mm) Connector location: JP8 & JP7 Connector location: CN7 & CN9 Definition Definition Definition... -
Page 39: Debug Port
Contents Debug Port GAL Download Port Connector size: 1 x 3 = 3-pin header (2.54mm) Connector size: 1 x 6 = 6-pin header (2.54mm) Connector location: JP2 Connector location: JP4 Definition Definition Definition VCC3... -
Page 40: Pin Definition Pin 1 Gps_Bat
Contents GPS Connector Internal WWAN SIM Card Socket (SIM 3) For CN27 Connector size: 1 x 6 = 6-pin header (1.0mm) Connector location: CN24 Connector location: J12 Definition Definition Definition Definition GPS_BAT GPS_LED# SIM PWR GPS_TX GPS_RX SIM RST VCC3_GPS SIM CLK SIM DAT... -
Page 41: Mcu Download Port
Contents MCU Download Port Connector size: 1 x 5 = 5-pin header (2.54mm) Connector location: JP3 Definition Definition V3.3ALW MRST C2CK... -
Page 42: Mini-Pcie (Usb + Pcie)
Contents Mini-PCIe (USB + PCIe) Connector location: CN17 Definition Definition Definition Definition WAKE# +V3.3A_MINI1 +V1.5S_MINI1 SMBCLK +V1.5S_MINI1 PCIE_TX_N SMBDAT CLK_REQ# PCIE_TX_P USB- PCIE_CLK# USB+ PCIE_CLK +V3.3A_MINI1 +V3.3A_MINI1 WLAN_LED# WLAN_DIS# RESET# +V1.5S_MINI1 PCIE_RX_N +V3.3A_MINI1 PCIE_RX_P BT_EN +V3.3A_MINI1... -
Page 43: Mini-Pcie (Usb + Pcie)
Contents Mini-PCIe (USB + PCIe) Connector location: CN25 Definition Definition Definition Definition WAKE# +V3.3_MINI_3 +V1.5S_MINI_3 SMBCLK +V1.5S_MINI_3 PCIE_TX_N SMBDAT CLKREQ PCIE_TX_P USB_D- REFCLK- USB_D+ REFCLK+ +V3.3_MINI_3 +V3.3_MINI_3 WWAN_LED# MINICARD3_DIS# WLAN_RESET# +V1.5S_MINI_3 PCIE_RX_N +V3.3_MINI_3 PCIE_RX_P CTRL0 +V3.3_MINI_3... -
Page 44: Mini-Pcie (Usb)
Contents Mini-PCIe (USB) Connector location: CN26 SIM Socket: SIM 1 (default) SIM Socket: SIM 2 Definition Definition Definition Definition MINI_MIC_P +V3.3A_MINI_4 MINI_MIC_N MINI_SPK_PRR SMS_RI_3.5G_R U_GND UIM_PWR2 UMTS_RESET#_R UIM_DAT2 USB- VCC_MSM26_DIG UIM_CLK2 USB+ UIM_RST2 +V3.3A_MINI_4 +V3.3A_MINI_4 3.5G_LED#_R 3.5G_DIS# PCM_CLK 3.5G_RST# PCM_RX +V3.3A_MINI_4 PCM_TX PCM_SYNC... -
Page 45: Mini-Pcie (Usb)
Contents Mini-PCIe (USB) Connector location: CN27 SIM Socket: SIM 2 (default) SIM Socket: SIM 3 Definition Definition Definition Definition +V3.3A_MINI_2 +V1.5S_MINI_2 +V1.5S_MINI_2 UIM2_PWR2_MINI UMTS_RESET#_R UIM2_DAT2_MINI USB- VCC_MSM26_DIG UIM2_CLK2_MINI USB+ UIM2_RST2_MINI +V3.3A_MINI_2 +V3.3A_MINI_2 PCIE2_LED 3.5G_DIS# 3.5G_RST# +V1.5S_MINI_2 +V3.3A_MINI_2 +V3.3A_MINI_2... -
Page 46: Removing The Chassis Cover
Contents 4: s haPter ystem etuP Removing the Chassis Cover Prior to removing the chassis cover, make sure the unit’s power CAUTION! CAUTION! is off and disconnected from the power sources to prevent CAUTION! electric shock or system damage. 1. The screws on the front and the rear are used to secure the cover to the chassis. -
Page 47: Installing A Ssd/Hdd Drive
Contents Installing a SSD/HDD Drive 2. Insert the hard drive into the drive bay with the SATA data and power 1. Loosen the thumb screws on the SSD/HDD drive bay and slide the drive bay out. connector facing towards the end. Align the hard drive’s mounting holes with the mounting holes on the drive bay, and use the provided screws to secure the hard drive in place. - Page 48 Contents 3. Insert the drive bay back in the SSD/HDD slot and tighten the thumb screws to secure it in place.
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Page 49: Installing A Wlan Module (Half Mini-Pcie)
Contents Installing a WLAN Module (Half Mini-PCIe) Installing a WWAN Module 1. Locate the WLAN Mini PCI Express slot (CN17). Insert the module into 1. Locate the WWAN Mini PCI Express slot (CN26 & CN27). Insert the module the Mini PCI Express slot at a 45 degrees angle until the gold-plated into the Mini PCI Express slot at a 45 degrees angle until the gold-plated connector on the edge of the module completely disappears inside the connector on the edge of the module completely disappears inside the... -
Page 50: Installing A So-Dimm
Contents Installing a SO-DIMM 1. Push the ejector tabs which are at the ends of the socket outward. Then insert the module into the socket at an approximately 30 degrees angle. Apply firm even pressure to each end of the module until it slips down into the socket. -
Page 51: Installing A Obdii Module
Contents Installing a OBDII Module 1. Locate the OBDII connectors (JP7 and JP8). 2. Connect the OBDII module to JP4 and JP3 and secure the OBDII module with screws. Mounting screws... -
Page 52: Menu Screen
Divio Tec’s software demo utility enables users to test and control different I/O port functions on the NRM301. This document shows how to use the utility. There are also source code files of the utility in the CD. Users can refer to the source codes to develop their applications. -
Page 53: Status
Contents 1.1 Status 1.1.1 Ignition Status 1.2 Input Voltage Press the button of Ignition Status, the signal of ignition will be shown. Shows the setting of input voltage in SW8 DIP switch. ON …… Signal of ignition is high. If the setting is 12V: OFF ….. -
Page 54: Output Power
Contents 1.3 Output Power 1.4 GPIO Setting 1.4.1 GPIO Select 1.3.1 External +12V Defines GPIO port as GPO or GPI. Enables or disables the output of 12VDC. 1.4.2 GPO Set 1.3.2 Bypass Car Battery Power Selects the GPO ports and makes the output low or high. Enables or Disables the output of Car Battery Power. -
Page 55: Mcu Gpio Setting
Contents 1.5 MCU GPIO Setting 1.5.1 MCU GPO Set 1.5.3 Event Button Read Selects MCU GPO ports and makes the output low or high. Shows the status of Event Button. Normal: 0 (default) 1.5.2 MCU GPI Status Triggered: 1 Shows the status of the MCU GPI. 1.5.4 Event Record Clear Clears the event record in MCU. -
Page 56: Wwan Module
Contents 1.7 WWAN Module 1.9 Power Off Delay Time Enables or disables the power off delay time function. There are 8 selections 1.7.1 Mini-PCIe CN27 of delay time. Selects SIM2 or SIM3 card. 1.7.2 Mini-PCIe CN26 Selects SIM1 or SIM2 card. 1.8 Selection of RS-422 or RS-485 for COM3 Enables or disables the power on delay time function. -
Page 57: Wake Up Function
Contents 1.10 Wake Up Function 1.11 CAN Bus Setting 1.10.1 WWAN 1.11.1 OBDII Module Reset Enables or disables the standby power to Mini-PCIe socket (CN23) for wake- Reset OBDII module. up function. ** The wake-up function is triggered by external RING or SMS. 1.11.2 OBDII Module Power Reset Reset the power of OBDII module. -
Page 58: Interface Power
Contents 1.12 Interface Power 1.13 Mini-PCIe Power 1.12.1 USB No.13 1.13.1 CN17 Enables or disables the power to USB ports (No.13) on rear panel. Enables or disables the power to USB port on CN17. 1.13.2 CN25 *In order to make all input devices (such as mouse and keyboard) work correctly, please do not disable USB No. -
Page 59: Setup And Using Gps Information
Contents B: u gPs f PPendIx sIng the eature Module: DGM-U2525T The NRM301 has a built-in u-blox UBX-G6010 GPS receiver module by default. Global Positioning System (GPS) uses a constellation of 50 medium earth orbit Chip: satellites to transmit and receive microwave signals to determine its current location. - Page 60 Contents 2. Insert the Installation Disc into CD-Rom drive and execute the “Gpsinfo. 4. When the setup complete, press <Finish>. exe” file (the file also saved in C:\Utility\GPS_Utility). 3. Follow the given instructions to complete the installation. 5. Once the installation is completed, installation of GPS Information onto PDA device will be launched automatically.
- Page 61 Contents “WAAS/EGNOS” - Check the box to activate WAAS/EGNOS in order to • Setup Window Screenshot increase the accuracy of positioning Double click GpsInfo_Vista icon from Desktop to start GPS. “Main GPS data Window” - Display data received by GPS device. •...
- Page 62 Contents “Latitude” – User’s current latitude is displayed in N/S degree (North/ • GPS Information Instructions South Hemisphere) format Make sure that the GPS device is properly inserted. “Satellite Status Chart” – display the status of each connected satellite • Start GPS Information Software.
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Page 63: Gpio Pinout Description
Contents c: s dI/do PPendIx Ignal onnectIon of GPIO Pinout Description SW2 Setting GPIO 330Ω Pin 9 Pin 16 GPIO1 VCC5 GPIO2 GPIO3 GPIO4 GPIO5 Pin 1 Pin 8 GPIO6 OBDII GPIO7 GPIO8 Definition DIP SW 2X8 DIP SW 2X8 GPIO1 (Default: GPI1) GPIO2 (Default: GPI2) GPIO3 (Default: GPI3) -
Page 64: Digital Input
Contents Digital Input CN14 connector for GPI signal (digital signal input) The CN14 has 4 digital input channels by default. Wet Contact (default) Dry Contact: The GPI signals have a pull up resistor to 5V internally. Internal External The figure below shows how to connect an external output source to one of the input channel. -
Page 65: Digital Output
Contents Digital Output CN14 connector for GPO signal (digital signal output) The CN14 connector has 4 digital output channels by default. The signal connection of CN14 support two connected methods for output signal type. The output signal has two states, one is low level (driven to 0V from GPO signal) other is open (high voltage is provided from external device). -
Page 66: Mcu-Dio Pinout Description
Contents d: s mcu dI/do PPendIx Ignal onnectIon of vent MCU-DIO Pinout Description Digital Input The figure below shows how to connect an external output source to one of the input channel. Internal External External Power Definition Definition External Resistor MCU-DO2 MCU-DI2 MCU-DI1... -
Page 67: Digital Output
Contents Digital Output Event Button The figure below shows how to connect an external input source to one of the output channel. Internal External External Power Definition External Resistor Event Input MCU-DO2 MCU-DI2 MCU-DO1 MCU-DI1 DB9-FEMALE-90-5.08mm Port Register OPEN... - Page 68 Contents (Status: Normal) (Status: Event Occurs) *When Pre-Alarm function is enabled. *When Pre-Alarm function is enabled Internal External Internal External 3.3V pull high 3.3V pull high Pin 1 Pin 2 Pin 1 Pin 2...
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Page 69: Pre-Alarm Function By Event Button, Mcu-Di And Mcu-Do
Contents Pre-Alarm Function by Event Button, MCU-DI and MCU-DO Pre-Alarm function allows NRM301 to monitor the environment and make Positive level: > 3.3V reaction, even when NRM301 is turned off. If the Central Locking System is initiated (locking signal is received) by a By monitoring the environment with sensors connected to Event Button and negative signal, select “Low”... -
Page 70: Activating Pre-Alarm Function
Contents Activating Pre-Alarm function Deactivating Pre-Alarm function Step 1: Setup Pre-Alarm function (For Event Button) Option 1: Step 2: Connect Event Button to sensor (such as reed switch) If Central Locking System is initiated by negative signal: Normally, the status of Event Button is “Short”. Once the status becomes When MCU-DI1 is “High”, Pre-Alarm Function is deactivated. -
Page 71: Activating Pre-Alarm Function
Contents Activating Pre-Alarm Function (For Event Button) (For MCU-DI2) Example: When Central Locking System is initiated (locking signal is received) by negative signal, select “Low” in the trigger threshold level for MCU-DI1. Start Start MCU-DI1 MCU-DI1 “Low”? “Low”? Event Button MCU-DI2 “Open”? “High”? -
Page 72: Deactivating Pre-Alarm Function
Contents Deactivating Pre-Alarm Function (For Event Button) (For MCU-DI2) Example: When Central Locking System is initiated (locking signal is received) by negative signal, select “Low” in the trigger threshold level for MCU-DI1. Point A Point A MCU-DI1 MCU-DI1 “High”? “High”? Flag B Flag B “1”? -
Page 73: External Power Output Setting
Contents e: v PPendIx ehIcle ower anagement etuP External Power Output Setting Startup and Shutdown Voltage Setting NRM301 series has four modes for external power output setting. Set the startup voltage to 11.5V or 23V and the shutdown voltage to 10.5V or 21V 1. - Page 74 Contents Set the startup voltage to 12.0V or 24V and the shutdown volt- Set the startup voltage to 12.5V or 25V and the shutdown volt- age to 11.0V or 22V age to 11.0V or 22V If the input voltage is 12V: the startup voltage to 12V and the shutdown If the input voltage is 12V: the startup voltage to 12.5V and the shutdown voltage to 11V.
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Page 75: Power-On Delay Setting
Contents Power-on Delay Setting Set the startup voltage to 12.5V or 25V and the shutdown volt- age to 11.0V or 22V Disable Power-on Delay If the input voltage is 12V: the startup voltage to 12.5V and the shutdown voltage to 11.5V. Aptio Setup Utility - Copyright (C) 2010 America Megatrends, Inc. - Page 76 Contents Enable Power-on Delay Delay time can be set at 10sec/30sec/1min./5min./10min./15min./30min./1hour. Aptio Setup Utility - Copyright (C) 2010 America Megatrends, Inc. Aptio Setup Utility - Copyright (C) 2010 America Megatrends, Inc. Advanced Advanced Power Management Configuration Power Management Configuration Power On Delay Setting Delay On Time Selection Setting ** External +12V &...
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Page 77: Power-Off Delay Setting
Contents Power-off Delay Setting Enable Power-off Delay Disable Power-off Delay Delay time can be set at 20sec/1min./5min./10min./30min./1hour/6hour/ 18hour. Aptio Setup Utility - Copyright (C) 2010 America Megatrends, Inc. Advanced Aptio Setup Utility - Copyright (C) 2010 America Megatrends, Inc. Power Management Configuration External +12V &... - Page 78 Contents Aptio Setup Utility - Copyright (C) 2010 America Megatrends, Inc. Advanced Power Management Configuration Delay Off Time Selection Setting ** External +12V & By Pass Car Battery Setting ** External Power [Turn On Both] ** External +12V & By Pass Car Battery Setting ** Input Voltage 9-36V Startup.Shutdown...
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Page 79: Obdii Module
Contents f: oBdII m PPendIx odule etuP and ommand OBDII Module You can also type HEX code instead: “41”, “54”, “5A”, “0D” If you see strange characters instead of “>”, you may set the incorrect baud rate. Please check baud rate. If you send the incorrect command, the device will show a single question mark (“?”) to indicate your input is not understood. -
Page 80: At Command Summary
Contents AT Command Summary AT@1: Display version information ATPA: Print data by ASCII CODE format Setting RS232 baud rate. xy is baud rate parameter. ATPH: Print data by HEX CODE format ATBR09: 9600 ATRJ: Request J1939 FMS High Resolution Total Vehicle Distance ATBR19: 19200 #33~#36 BRxy... -
Page 81: Simple Data Protocol: (Ascii Code)
Contents Simple Data Protocol: (ASCII CODE) Data Description Byte 23 FU, Average Fuel Economy (km/L) =Fu /10 HEAD Byte 24 , Byte 0 Check sum (odd numbers)= Byte1+ Byte3+Byte5+ Byte 25 Byte7+Byte9+Byte11+ Byte13+ Byte15+Byte17+ Byte 1 Speed , (0~255) KM/HR Byte19+Byte21+Byte23 Byte 2 Byte 26 Carry return ( 0x0D ) -
Page 82: Simple Data Protocol: (Hex Code)
Contents NOTE: Simple Data Protocol: (HEX CODE) 1.) Data format : ASCII CODE @ , 7 8 , 0 E , 7 0 , 0 0 ,0 3 , 9 8 , 2 8 , Status ,MAF,D1,D2,Fu,CS Data Description speed=78 km/hr HEAD @ (=0x40) rpm=0x0E70= 3696... -
Page 83: J1939 Raw Data Protocol (Hex Code)
Contents J1939 Raw Data Protocol (HEX CODE) J1708 Raw Data Protocol (HEX CODE) Support for J1939 PGN / SPN access as defined in the J1939 standards. This function will report all MID and PID that broadcasting on the J1708 This function will report all PGNs and their source node on the J1939 network. -
Page 84: J1939 Packaged Messages Protocol
Contents J1939 Packaged Messages Protocol ATS: send packaged messages by turns. #00 Speed Low Byte (SLB) Response HEX CODE (default) after ATPH command Speed High Byte (SHB) speed=(SHB*256+SLB)/256 Packing 1: Packing 2: Packing 3: Byte 0:“ @” ,( 0x40) Byte 0: “ @” ,( 0x40) Byte 0: “... - Page 85 Contents Axle weight 0.5 kg / Bit gain (High Byte), AWH Weight=(AWH*256+AWL)*0.5 NOT USED Engine Starter Mode #16 Engine total hours of Operation, EH1 B7: 1, Total Vehicle Distance is provided by vehicle ECU #17 Engine total hours of Operation, EH2 0, Total Vehicle Distance is calculation value #18 Engine total hours of Operation, EH3 B3~B0:...
- Page 86 Contents #36 D4 The distance which can be traveled by the vehicle before the next Driver 2 time related state (B3,B2,B1,B0) ° service inspection is required GIndicates if the driver approaches or exceeds working time limits (or other limits). SERV=(V2*256+V1)*5-160635 (KM) 0000 = normal #37 V1 Driver 2 card (B5,B4)
- Page 87 Contents Engine Turbocharger Boost Pressure(ETBP), 2 kPa/bit , 0~500 KPA Ambient Air Temperature: Temperature of air surrounding vehicle. ETPB=data *2 (KPA) AAT=(AATH* 256+AATL)*0.03125 -273 deg C Engine Intake Manifold 1 Temperature(EIMT) , -40 to 210 deg C #55: AATL EIMT=data-40°C #56: AATH Bit7,6 Anti-Lock Braking (ABS) Active Door Control 1:...
- Page 88 Contents Bit 7, Bit 6: Lock Bit 5,Bit 4: Enable Bit 3,Bit 2: Open Bit 1,Bit 0: Lock Bit 7, Bit 6: Enable Bit 5, Bit 4: Open Bit 3, Bit 2: Lock Bit1, Bit 0: Enable Status Door 2 Status Door 1 Status Door 1 Status Door 1...
- Page 89 Contents Selected Gear = data -125negative gear are reverse gears #81 BPRAL1 00000000 = neutral #82 BPFAR2 11111011 = park Driver’s Identification (Driver 1 & Driver 2 identification) Current Gear=data-125 negative gear are reverse gears The driver ID is only available if a digital tachograph is present 00000000 = neutral 11111011 = park Engine Fuel Rate (EFR).
- Page 90 Contents Bit 3,2,1,0: Telltale Status 2 Bit 3,2,1,0: Telltale Status 6 1000 = off 1000 = off 1001 = Cond. Red 1001 = Cond. Red 1010 = Cond. Yellow 1010 = Cond. Yellow 1011 = Cond. Info 1011 = Cond. Info 1100–1110 = Reserved 1100–1110 = Reserved 1111 = not available...
- Page 91 Contents Bit 3,2,1,0: Telltale Status 10 Bit 3,2,1,0: Telltale Status 14 1000 = off 1000 = off 1001 = Cond. Red 1001 = Cond. Red 1010 = Cond. Yellow 1010 = Cond. Yellow 1011 = Cond. Info 1011 = Cond. Info 1100–1110 = Reserved 1100–1110 = Reserved 1111 = not available...
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Page 92: J1708 Packaged Messages Protocol
Contents J1708 Packaged Messages Protocol Once AT1708 SLEEP, it can wake it up. Packing 4 & 5 will display only there is trouble code occurrence. Start to send data by 3 packing, response HEX CODE Packing 4: Packing 5: Packing 1: Packing 2: Packing 3: Byte 0: “... - Page 93 Contents Road Speed—Indicated vehicle velocity Percent Accelerator Pedal Position(PAPP)—Ratio of actual Maximum Range: 0.0 to 205.2 km/h (0.0 to 127.5 mph) accelerator pedal position to maximum pedal position. speed=(SHB*256+SLB)/256 Maximum Range: 0.0 to 102.0% PAPP= Data* 0.4 #00 Speed Low Byte (SLB) Total Fuel Used (Natural Gas)—Accumulated amount of fuel used #01 Speed High Byte (SHB) during vehicle operation.
- Page 94 Contents Cargo Weight—The force of gravity of freight carried. PTO Engagement Control Status Maximum Range: 0.0 to 1 166 056.9 N (0.0 to 262 140.0 lbf ) PTO output status: (Low Byte),AWL Bits 8-5: Reserved—all bits set to 1 Bits 4-3: PTO #2 engagement actuator status (High Byte), AWH Bits 2-1: PTO #1 engagement actuator status Weight=(AWH*256+AWL)* 17.792 N...
- Page 95 Contents #33 D1 Intake Manifold Temperature (IMT)—Temperature of precombustion air found in intake manifold of engine air supply system. #34 D2 Maximum Range: 0.0 to 255.0 °F #35 D3 IMT=data °F #36 D4 ABS Control Status Fuel Rate (Instantaneous)—Amount of fuel consumed by engine per Bits 8-7: ABS off-road function switch unit of time.
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Page 96: J1708 Command Example
Contents J1708 Command Example 1.) >AT#h, Response: “Data1” “Data2” “H0D” “H3E” by ASCII CODE. EX1: AT#1, to get vehicle speed, if speed is 255, Display, > (H46,H46, H0D,H3E). 2.) Trouble code : 40 37 80 8 CA 80 A AA 80 B AA 80 C AA 80 1 AA FC D A Trouble code : MID 128( H80) PID 8(H8) -
Page 97: S2532Dr Overview
Contents g: P gPs d -- vIoB- PPendIx efInItIon for eckonIng odule gPs-dr02 S2532DR Overview Technical Specifications L1 C/A code, 65-channel Venus 6 engine Receiver Type Position 2.5m CEP Accuracy Velocity 0.1m/sec Time 300ns 1 second hot start under open sky Startup Time <... - Page 98 Contents VIOB-GPS-DR02 consists of S2532DR and cables. Here are the connector and cable pin definition for VIOB-GPS-DR02. (1) Connect VIOB-GPS-DR02 and DB9 Cable (2) Connect VIOB-GPS-DR02 and CPU Board with Cable (On VIOB-GPS-DR02) (On VIOB-GPS-DR02) A. Connector type: 1x6 6-pin header A.
- Page 99 Contents Connector pin definition of P1, J1 Definition Definition GPIO22 DIRECTION 1PPS ODOMETER Connector pin definition of P2 Definition Definition 1PPS GPIO22 ODOMETER DIRECTION Connector pin definition of J12, J2, P3, P4 Definition Definition GPS_BAT GPS_RX GPS_LED# GPS_TX VCC3_GPS...
- Page 100 Contents h: P PPendIx ower onsumPtIon Item 1 OS: Windows 8 Burn-in Software: Version 6.0 Device: 2G DDR3L and SSD Idle Mode Burn-in Mode 0.75A/12V 1.1A/12V 0.1A/12V 0.05A/12V 0.05A/12V 13.2W 1.2W 0.6W 0.6W Item 2 OS: Windows 8 Burn-in Software: Version 6.0 Device: 8G DDR3L, SSD/CFast, GPS + OBDII module, WWAN, CAN 2.0B module, WLAN + Bluetooth card, capture card Idle Mode Burn-in Mode...
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