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Onlogic HX310 Product Manual

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HX310 / HX330 Industrial Computer
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Summary of Contents for Onlogic HX310

  • Page 1 HX310 / HX330 Industrial Computer Product Manual...

  • Page 2: Table Of Contents

    1.3 - Product Specifications 1.4 - Exterior Features and Dimensions 1.4.1 - Front I/O 1.4.2 - Back I/O 1.4.3 - Helix 300 Dimensions (HX310 / HX330) 1.5 - System Block Diagram 2 - I/O Definitions 2.1 - Front I/O Definition 2.2 - Rear I/O definition...
  • Page 3 4 - Power Management 4.1 - Wake-Up Events 4.2 - Protection Circuitry 5 - Regulatory Compliance FCC Statement ISED (Innovation, Science and Economic Development Canada) 6. - Appendices 6.1 - Appendix A: Power consumption 6.2 - Appendix B: Isolated DIO guide 6.3 - Appendix C: BIOS manual 6.4 - Appendix D: CAN user guide 6.4 - Appendix E: System thermal results...

  • Page 4: System Overview

    All drivers and product guides can be found on the corresponding product page. For more information on accessories and additional features, visit the Helix Product pages. Helix 310 Product Page: https://www.onlogic.com/hx310/ Helix 330 Product Page: https://www.onlogic.com/hx330/...

  • Page 5: Product Specifications

    1.3 - Product Specifications HX310 HX330 Model System Dimensions 196x37x120 mm (TBD) same Motherboard 114 x 175 mm max (TBD) same Dimensions Celeon N6211 6W, 2 Cores or Pentium Celeon N6211 6W, 2 Cores or Pentium J6426 - 10 W, 4 Cores...
  • Page 6 Auto Power On (AT/ATX Mode Select) Auto Power On (AT/ATX Mode Select) 2x6 connector for GPIO x 8 with Interrupt 2x6 connector for GPIO x 8 with Interrupt (including 1 pin power, 2 pin ground, 1 (including 1 pin power, 2 pin ground, 1 keyed) keyed) CAN-FD Bus 2x5-pin header with key (to use...

  • Page 7: Exterior Features And Dimensions

    1.4 - Exterior Features and Dimensions 1.4.1 - Front I/O The HX310 is pictured. See Section 2.1 for information on the HX330 1.4.2 - Back I/O The HX310 is pictured with the dual LAN option.

  • Page 8: Helix 300 Dimensions (Hx310 / Hx330)

    1.4.3 - Helix 300 Dimensions (HX310 / HX330)

  • Page 9: System Block Diagram

    1.5 - System Block Diagram...

  • Page 10: I/O Definitions

    2 - I/O Definitions 2.1 - Front I/O Definition The HX310 with the DIO option is pictured. The HX330 with the additional dual LAN option is pictured. Power Button / Power LED The front power button can be used to turn on and off the Helix system. The power button is a momentary contact button with a blue LED backlight used to display the status of the system.
  • Page 11 SIM Card A 3FF Subscriber Identity Module (SIM) card slot is present on the front panel of the Helix platform allowing native support for OnLogic Extrovert 4G LTE modules. The SIM signals are connected to the M.2 B-Key internal expansion slot.
  • Page 12 CAN DB9 option The CAN port on Helix supports CAN2.0 A/B at baud rates from 100-1000 kbaud. The system CAN port is not internally terminated, and a properly terminated ( 120 Ohms, typical ) cable should be used. CAN messages may be sent and received through the sideband Programmable Services Engine, via the Host Embedded Controller Interface (HECI).
  • Page 13 Controller Interface (HECI). Windows drivers are available for this interface, and a command line tool is available for download from our support website. For a complete explanation of features, operating voltages, and safety information, please refer to the DIO expansion manual on the OnLogic support site.

  • Page 14: Rear I/O Definition

    2.2 - Rear I/O definition The rear I/O of the HX310 is shown below. The HX330 has the same connector orientations and locations on the motherboard. Barrel Jack Power Connector Mainboard power is applied to the Helix platform by way of a female barrel jack connector (OD: 5.5mm ID: 2.5mm.
  • Page 15 DisplayPort 1, 2, & 3 Helix utilizes Intel’ s Integrated Gen 11 processor graphics that power the onboard DisplayPorts. This means resolutions up to 4096x2160 @ 60Hz are supported on all three outputs simultaneously. All ports support Multi-Stream Transport (MST). An additional CEC module can be included to add CEC (Consumer Electronics Control) functionality on DisplayPort 2 &...
  • Page 16 Terminal block power option If the terminal block power option is selected, mainboard power is applied to the Helix platform through a 4-pin terminal block connector (Mating part: Phoenix Contact # or equivalent). 1840382 The system is operational from 8V~24V. The maximum rated current of the connector is 6A per pin. Use a wire gauge that is rated for the operational current.

  • Page 17: Motherboard Connectors

    2.3 - Motherboard Connectors The motherboard is the same for HX310 and HX330. The second LAN port is only available for configurations with the Pentium J6426 CPU option. M.2 B-Key An M.2 B-Key port is present on the Helix motherboard to allow support for B-Key form-factor expansion cards.
  • Page 18 M.2 E-Key An M.2 E-Key port is present on the Helix motherboard to allow support for E-Key form-factor wireless expansion cards. Only 2230 form-factor cards are supported. The E-Key connector on the Helix platform supports PCIe Gen 3 x1 and USB 2.0. A full pinout table for this expansion slot is provided in Appendix E.
  • Page 19 COM1 & COM2 The two on-board COM headers utilize standard 9-pin 2.00mm pitch male pin headers with the pin configuration in the chart below. These serial ports support RS-232, RS-422 Full-Duplex, and RS-485 half-Duplex configurations. The serial port communication mode can be selected in the BIOS configuration.
  • Page 20 The on-board CAN transceiver headers utilize standard 9-pin 2.00mm pitch male pin headers with the pin configuration in the chart below. Refer to the CAN user guide (Appendix D) for configuration instructions. Usage CAN_L CAN_H (KEY) Motherboard CAN header pinout BIOS EEPROM If the BIOS needs to be updated, please refer to Appendix C for reflashing instructions.
  • Page 21 TPM header Helix features an onboard TPM (Trusted Platform Module) header. Helix supports OnLogic’ s module (OnLogic part TPM01) featuring TPM 2.0. This gives the option to have a dedicated secure module to secure Helix through cryptographic keys.
  • Page 22 Fan Header The on-board fan header can power and control any five volt three or four-wire fan (including variable-speed PWM fans) using the standard pin configuration in the chart below. Three-wire fans will only connect to pins 1-3. This header utilizes a standard 4-pin 2.54mm pitch fan connector with a small retention tab.
  • Page 23 HDMI-CEC (Consumer Electronics Control) is a communication protocol supporting the control of displays over an HDMI interface. The Helix platform supports two-port CEC via the optional add-on module ADP107. For a full description of supported features, refer to the ADP107 product manual located on the Helix platform product pages. https://www.onlogic.com/hx310/ https://www.onlogic.com/hx330/...
  • Page 24 Power Input Header Mainboard power can be applied to the Helix platform by way of the 4-pin JST XH-4 connector (Mating part: JST XHP-4 equivalent). The system is operational from 8V~24V. The maximum rated current of the connector is 3A per pin. Use a wire gauge that is rated for the operational current. See below for connector pinout.
  • Page 25 Motherboard bottom view (Heatsink side) 1. Two CPU options are available for the HX310 and HX330. Both systems can be configured with either a 2-core Celeron N6211, or a 4-core Pentium J6426. The second on-board LAN port is available standard with the 4-core Pentium J6426 option.

  • Page 26: Mounting Instructions

    3 - Mounting Instructions 3.1 - Wall Mount & DIN Rail Mounting Step 1: Attach wall mounting brackets MTW101 (no DIN), MTW101-K (DIN), MTW107 (Vertical DIN), VM1041 (VESA) to the chassis using the supplied screws. Specifications can be found below: Screw type: M3X0.5 FH 120 Degree Screw Length : 4 mm Step 2: Locate the 4 holes that line up accordingly to the bracket as shown below.

  • Page 29: Vesa Mounting

    3.1 - VESA Mounting Step 1: Attach wall mounting brackets to the chassis using: Screw type: M3X0.5 FH 120 Degree Screw Length: 4 mm Step 2: Locate the 4 holes that line up accordingly to the bracket as shown Step 3: Fasten system to surface. The mounting bracket systems are required to secure 3x the hanging weight of the computer system.

  • Page 30: Power Management

    4 - Power Management 4.1 - Wake-Up Events The Helix platform supports multiple power states. The wake-up events can be configured in the BIOS. This section describes the supported power management functions and gives information on protection circuitry for power adapters. Low power shutdown is an additional option in the BIOS. See Appendix C for more information.

  • Page 31: Regulatory Compliance

    6. - Appendices 6.1 - Appendix A: Power consumption The power consumption of the HX310 system was measured for various system configurations, workloads, and power states at both 12V and 24V system input voltages. Tests were performed using Burnintest v9.0 build 1012 to stress system components with and without graphics enabled. The build configurations and power consumption are listed in the tables below.
  • Page 32 WIndows 10 Pro 64 Bit WIndows 10 Pro 64 Bit WIndows 10 Pro 64 Bit BIOS Version A048 A048 A048 Config 1 Low HX310 Power Consumption 8V (avg W) 24V (avg W) Windows Idle CPU / system Stress 10.6 11.2 CPU / System &...

  • Page 33: Appendix B: Isolated Dio Guide

    0.17 Deep S5 6.2 - Appendix B: Isolated DIO guide Additional information for the Isolated DIO can be found on the OnLogic support site. Please refer to the link below for additional information. https://www.onlogic.com/support/documentation/hx300-technical-resources 6.3 - Appendix C: BIOS manual For a detailed overview of the BIOS screens and individual settings, please refer to the OnLogic support site.

  • Page 34: Appendix E: System Thermal Results

    6.4 - Appendix E: System thermal results The thermal performance of the Helix platform was validated by fully loading system components while the test system was exposed to the limits of its rated environment (0C-50C). CPU clock speeds and core temperatures were measured for the duration of the test. The results were analyzed by comparing the average clock speed over the duration of the test to the rated base clock speed.

  • Page 37: Appendix F: Expansion Port Pinout

    6.5 - Appendix F: Expansion port pinout 6.5.1 - M.2 B-Key Function Function CONFIG_3 3.3V 3.3V FULL_CARD_POWER_OFF# USB 2.0 D+ W_DISABLE1# USB 2.0 D- CONFIG_0 GPIO_10/W_DISABLE2# PERn1/USB3.1-Rx- UIM-RESET PERp1/USB3.1-Rx+ UIM_CLK UIM_DATA PETn1/USB3.1-Tx- UIM_PWR PETp1/USB3.1-Tx+ PERn0/SATA-B+ PERp0/SATA-B- PETn0/SATA-A- PETp0/SATA-A+ PERST# CLKREQ# REFCLKn PEWAKE# REFCLKp...

  • Page 38: M.2 E-Key

    SIM_DETECT RESET_N SUSCLK CONFIG_1 3.3V 3.3V 3.3V CONFIG_2 6.5.2 - M.2 E-Key Function Function 3.3 V USB_D+ 3.3 V USB_D- PCM_CLK RESERVED CNV_RF_RESET#_R RESERVED BT_PCMIN BT_PCMOUT RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED PETp0 RESERVED PETn0 RESERVED RESERVED PERp0 RESERVED PERn0 RESERVED RESERVED...

  • Page 39: M.2 M-Key

    PERST0# CLKREQ0# W_DISABLE2# PEWAKE0# W_DISABLE1# RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED 3.3V RESERVED 3.3V 6.5.3 - M.2 M-Key Function Function 3.3 V 3.3 V PERn3 PERp3 DAS/DSS (I/O)/LED_1# (I)(0/3.3V) PETn3 3.3 V PETp3 3.3 V 3.3 V PERn2 3.3 V PERp2 PETn2 PETp2...

  • Page 40: Mpcie

    SMB_CLK (I/O)(0/1.8V) PERn0/SATA-B+ SMB_DATA (I/O) (0/1.8V) PERp0/SATA-B- ALERT# (I) (0/1.8V) PETn0/SATA-A- PETp0/SATA-A+ PERST# (O)(0/3.3V) or NC CLKREQ# (I/O)(0/3.3V) or NC REFCLKn PEWAKE# (I/O)(0/3.3V) or NC REFCLKp CONNECTOR Key M CONNECTOR Key M CONNECTOR Key M CONNECTOR Key M CONNECTOR Key M CONNECTOR Key M CONNECTOR Key M CONNECTOR Key M...

  • Page 41: Appendix G: Safety Information

    PERp0 1.5V SMB_CLK PETn0 SMB_DATA PETp0 USB 2.0_D- USB 2.0_D+ 3.3V 3.3V 1.5V W_DISABLE2# 3.3V 6.6 - Appendix G: Safety Information Do not open or modify the device. Modification of the device may void these certifications. 6.6.1 Safe use and installation instructions 1.

  • Page 42: Précautions Et Guide D'installation

    WARNING: There is danger of explosion if the CMOS battery is replaced incorrectly. Disposal of battery into fire or a hot oven, or mechanically crushing or cutting of a battery can result in an explosion. 6.6.2 Précautions et guide d’installation 1.

  • Page 43: Description

    Severity: Status: Confirmed Revision Resolved: None Description Configuring the system to use RS422 or RS485 serial modes on Windows requires using the SerCx2.sys driver framework. Most existing serial utilities only support the Serial.sys driver framework, requiring the use of Windows APIs to use the RS422/485 serial device.

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Hx330

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