RUFUS Help
RUFUS CloudBox
RUFUS CloudBox
  • Introduction to RUFUS CloudBox
  • GETTING STARTED
    • Getting Started with RFID Technology
    • Introduction to Race Timing
    • RFID for Race Timing
    • Networks 101: Understanding the Basics for Race Timing
    • CloudBox Ports & Characteristics
  • PROTOCOL
    • How to Connect to the CloudBox
    • Protocol Commands and Responses
    • Receiving Timing Data Passings During a Session
  • CONNECTIONS
    • Connecting to the CloudBox: LAN, WiFi, and 4G Overview
    • Connecting the CloudBox via Ethernet Cable
    • Connecting the CloudBox via WiFi Access Point
    • Connecting the CloudBox to an External WiFi Network
    • Connecting Two or More CloudBox in the Same Network via a Hub or Router
    • Connecting the CloudBox to a 4G Network
  • Interface
    • Accessing the CloudBox Interface: General Guide
    • Timing Interface
    • Status Interface
    • Configuration Interface
    • Backup Interface
    • GPS Interface
    • Cloud Interface
  • General Operations
    • RFID Reader Configuration
    • RFID Reader Installation
    • Knowing your CloudBox IP Address
    • Boot Sequence
    • Starting and Stopping a Timing Session
    • Accessing Backup Files on the CloudBox
    • Time Synchronization Methods
    • LED Signals and Alarm Notifications
    • Connecting your CloudBox with RUFUS Race Manager (locally)
    • Connecting your CloudBox with Wiclax (locally)
  • ADVANCED OPERATIONS
    • Firmware Update
    • Network Configuration
    • GPS Service
    • Backup Rewind Function
    • IoT Service
    • 4G Modem
  • Cloud
    • Introduction to CloudBox Cloud Service
    • Binding the CloudBox with the RUFUS Cloud Service
    • Accessing Stored Cloud Timing Sessions
    • Connecting your CloudBox with RUFUS Race Manager (remote)
  • Care and maintenance
    • Warning!
    • Battery Care
    • Taking Care of your CloudBox
    • General Recommendations
    • Special Note on UHF Cables
  • Common problems
    • FAQ
    • Common Problems and Troubleshooting
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On this page
  • Key Ports and Connectivity
  • System Components
  • Environmental and Physical Specifications
  • Alarms and Notifications
  • UHF Reader and Antenna Compatibility
  1. GETTING STARTED

CloudBox Ports & Characteristics

PreviousNetworks 101: Understanding the Basics for Race TimingNextHow to Connect to the CloudBox

Last updated 7 months ago

The CloudBox is a powerful and versatile timing device equipped with multiple ports and features designed to optimize its performance in race timing environments. In this article, we’ll break down the key ports and their characteristics, as well as the system components that make the CloudBox an essential tool for race organizers.

Key Ports and Connectivity

  1. Ethernet Port

    • Connector: RJ45 Neutrik NE8FDP IP65

    • Purpose: This port is used for establishing a TCP socket connection for controlling the CloudBox, managing status updates, and retrieving timing data. It provides reliable communication over wired networks, making it ideal for setups where stability and speed are critical.

    • Use Cases: Data extraction, status monitoring, and session control via Ethernet.

  2. USB Port

    • Connector: USB 2.0 Neutrik NAUSB-W

    • Purpose: The USB port is designed for quick extraction of backup files. By inserting a USB drive, you can swiftly download saved passings for post-race analysis.

    • Use Cases: Backup passings data downloads.

  3. Charging Port

    • Connector: Standard IEC-320 C-14

    • Purpose: This port allows for safe and efficient charging of the CloudBox’s internal batteries.

    • Use Cases: Powering the CloudBox, battery recharging.

  4. SIM Card Slot

    • Type: 2FF - Mini SIM (25 x 15 x 0.76 mm)

    • Purpose: The CloudBox supports 4G connectivity via a Mini SIM card, allowing for remote operation and real-time data transmission even when WiFi or Ethernet is unavailable.

    • Use Cases: Cellular data for live timing, cloud communication, and GPS tracking.

  5. WiFi Access Point

    • Specification: 802.11b/g/n - Internal antenna

    • Purpose: The CloudBox can function as a WiFi access point, enabling easy access and control via smartphones or other devices. It can also connect to external WiFi networks to gain internet access.

    • Use Cases: Connecting to local WiFi networks for data transmission, serving as an access point for device control.

  6. UHF Reader Compartment

    • Reader Power Output Cable: Supplies power to the RFID reader.

    • Reader Data Input Ethernet Cable: Used to connect the reader to the system for data transmission.

    • Purpose: This compartment is specifically designed to house and connect compatible RFID readers.


System Components

  1. CPU and Memory

    • CPU: Quad Core 1.2GHz Broadcom BCM2837 64bit CPU

    • RAM: 1GB

    • Flash Memory: 32GB

  2. Real-Time Clock (RTC)

    • Accuracy: ±20 parts per million (ppm), approximately ±1.73 seconds per day.

    • Synchronization: Frequent synchronization with an NTP server reduces the impact of clock drift, making the device highly accurate.

    • Purpose: Ensures accurate timekeeping during events.

  3. Integrated WiFi Modem

    • WiFi: 802.11b/g/n

    • Purpose: For connecting to external WiFi networks or creating a local access point to share internet access with connected devices.

    • Use Cases: Remote control, real-time timing data sharing, and system monitoring via WiFi.


Environmental and Physical Specifications

  1. Protection Rating

    • IP52: Protected against limited dust ingress and dripping water when tilted up to 15 degrees. While not fully waterproof, the CloudBox can handle minor exposure to elements.

    • Use Cases: Moderate outdoor environments; ensure protective measures (e.g., waterproof covering) in extreme weather.

  2. Operating Temperature

    • Range: -20°C to +60°C

    • Use Cases: Suitable for outdoor weather conditions, including cold and hot races.

  3. Dimensions and Weight

    • Dimensions: 36 x 26 x 20 cm

    • Weight: 5.5 kg (without the reader)

    • Use Cases: Portable, yet durable enough for event handling.


Alarms and Notifications

  1. Buzzer

    • Frequency: 2.9kHz

    • Acoustic Level: 95dB

    • Purpose: Provides audible feedback for system events, such as passing notifications during timing sessions.

    • Use Cases: Real-time passing notifications, error alerts.

  2. LEDs

    • Power and Start/Stop LEDs: These indicators provide real-time feedback on the CloudBox’s operational status, signaling power on/off, timing session states, and errors.

    • Use Cases: Monitoring system status during races.


UHF Reader and Antenna Compatibility

  1. Reader Compatibility

    • Models: Zebra FX9600, Motorola FX9500, Impinj R420, Impinj R220, Chainway UR4.

    • Purpose: The CloudBox is reader agnostic, allowing it to be used with a wide variety of UHF readers from the most trusted industry brands.

    • Use Cases: Adaptable for low and high-density timing points, making it versatile for different race event types.

  2. Antenna Compatibility

    • Frequencies: 902MHz – 928MHz, 865MHz – 868MHz

    • Purpose: The CloudBox is compatible with a wide range of UHF antennas, ensuring seamless integration with existing timing setups.

    • Use Cases: Various race timing scenarios, including road races, trail running, cycling, and triathlons.