Ram Coding Ltd | Software & Firmware | Hardware | Development products & Web | IOT platform Design

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Automated Emergency Light Development and Deployment in the UK

Client

Protest ES Ltd

Developers used

1 CEO
1 Project Manager
2 Developers
1 QA Specialist

Timescale

3 months for initial development + ongoing support

Challenge

Our client was looking for a new service solution in the emergency light industry to reduce time, costs, and energy consumption.

Solution

We implemented a full mesh system using low power Bluetooth technology, enhanced with Wi-Fi and GSM to create hybrid connectivity suitable for different environments.

The software system was successfully launched within the 3-month development timeframe, and ongoing support has been provided for over 6 years. The solution has been deployed in various locations, including museums, power plants, offshore facilities, offices, and large enterprises.

Automated LV Panel Thermal Imaging

Client

VoltLogic Ltd

Developers used

1 CEO
1 Project Manager
3 developers
1 QA Specialist
1 Electrical Engineer

Timescale

4 months for initial development + ongoing support

Challenge

Our client required an automated solution for thermal imaging of Low and High Voltage (LV) panels to enhance safety, reduce maintenance costs, and prevent potential failures by early detection of thermal anomalies.

Solution

We developed and deployed an automated LV panel thermal imaging system with the following features:

Real-time Thermal Monitoring: Continuous thermal imaging using advanced infrared sensors to detect overheating components, ensuring early detection of thermal anomalies.
Automated Alerts: Instant notifications and alerts for abnormal temperature readings to prevent potential hazards and enable prompt action.
Data Analytics: Detailed analysis and reporting of temperature data to predict maintenance needs and avoid unexpected failures, helping reduce overall maintenance costs.
Integration Capabilities: Seamless integration with existing building management systems for centralized monitoring and control, enhancing operational efficiency.
User-friendly Interface: An intuitive web portal and mobile app for easy access to real-time data and historical records, improving usability and accessibility.

The system was successfully launched within the 4-month development timeframe, and ongoing support has been provided to ensure continuous improvements and reliability. The solution has been implemented in various facilities, including industrial plants, commercial buildings, and data centres, significantly enhancing their safety and operational efficiency.

Custom-Made Multiconnectivity Board for Embedded Systems: Development and Market Launch

Client

Promptus Ltd

Developers used

1 CEO
1 Project Manager
2 Hardware Engineers
2 Firmware Developers
1 UX/UI Designer
1 QA Specialist

Timescale

6 months for development +
3 months for market launch + ongoing support

Challenge

Our client needed a bespoke, innovative product never before seen in the industry. The goal was to develop and launch a custom-made multi connectivity board for embedded systems, supporting solar, battery, and mains power options, integrated with temperature sensors, accelerometers, and GNSS. The board had to accommodate extra connectors for third-party sensors, work on low-power Bluetooth, Wi-Fi, and GSM technology, and securely connect to multiple third-party portals (AWS, Particle, DataDog) using open protocols such as MQTT, TCP/IP, Thread, and HTTPS. The design needed to meet specific size parameters, with support for enclosure design and mass production in the UK and Europe.

Solution

We developed and launched a custom multiconnectivity board with the following features:

Versatile Connectivity: Supports multiple communication protocols including Bluetooth, Wi-Fi, GSM, and LoRa for seamless integration with different systems.
High Performance: Designed with advanced hardware components to ensure high performance and reliability under various operational conditions.
Scalability: Modular design to accommodate future upgrades and additional features as technology evolves.
User-friendly Firmware: Custom firmware to manage connectivity and ensure smooth operation across different communication channels.
Comprehensive Testing: Extensive testing and validation to ensure compliance with industry standards and optimal performance.

In addition, specific features requested by the client were included:

Power Options: Designed to work with solar, battery, and mains power, not exceeding 30 microamperes in deep sleep mode while using Wi-Fi and GSM connectivity.
Global Connectivity: Included an external SIM slot and built-in 10-year SIM connectivity for worldwide usage.
Security and Compatibility: Implemented robust security measures and ensured full compatibility with major cloud providers globally, including AWS, Particle, and DataDog.
Size Compliance: Ensured the design adhered to defined size parameters.
Enclosure Design and Mass Production: Provided support for enclosure design and mass production in the UK and Europe.

The board was developed within a 6-month timeframe, followed by a 3-month market launch phase that included prototyping, user feedback collection, and final adjustments. The product was successfully introduced to the market and marketed throughout the UK and Europe. It was sold as a standalone device, with international sales and manufacturing visits for quality control supported for the product's lifetime.

Legionella Temperature Monitoring and Auto Flushing System Development and Deployment in the UK

Client

PCG Services Ltd

Developers used

1 CEO
1 Project Manager
3 developers
1 QA Specialist

Timescale

3 months for initial development + ongoing support

Challenge

Our client was looking for a new service solution to monitor and control water temperatures to prevent legionella growth, aiming to reduce time, costs, and energy consumption while ensuring compliance with health and safety regulations.

Solution

We developed and deployed a comprehensive legionella temperature monitoring and auto flushing system. The system features:

Real-time Temperature Monitoring: Using IoT sensors to continuously monitor water temperatures.
Auto Flushing Mechanism: Automatically flushes water systems based on temperature thresholds to prevent legionella growth.
Data Analytics: Provides actionable insights and reports to help facility managers make informed decisions.
Hybrid Connectivity: Enhanced with Wi-Fi and GSM to ensure reliable operation in various environments.

The system was successfully launched within the 3-month development timeframe, and ongoing support has been provided . The solution has been deployed in various locations, including hospitals, hotels, industrial facilities, offices, and large enterprises, ensuring compliance with safety standards and improving operational efficiency.

Custom IOT Platform

Client

P-BMS Ltd

Developers used

1 CEO
1 Project Manager
3 Developers
1 UX/UI Designer,
1 QA Specialist

Timescale

4 months for initial development + ongoing support

Challenge

Our client required a custom IoT portal to manage and monitor various IoT devices, aiming to improve operational efficiency, provide real-time data insights, and enable remote control of devices.

Solution

We developed and deployed a custom IoT portal with the following features:

Device Management: Comprehensive tools for registering, managing, and monitoring IoT devices.
Real-time Data Visualization: Dashboards displaying real-time data and trends from connected devices.
Alert and Notification System: Customizable alerts and notifications for various device conditions and thresholds.
User Management: Role-based access control to manage user permissions and data security.
Integration Capabilities: APIs and connectors for integrating with other systems and third-party services.
Scalability: Designed to handle a growing number of devices and users.
Customized Interface: Full front-end interface customized to fit the client's vision, including interactive drawings, heatmaps, and detailed reports.
Multi-site Management: Ability to manage multiple sites and identify problems within a single portal.
Cross-platform Accessibility: Accessible via a web portal and mobile apps for Android and iPhone.

The portal was successfully launched within the 4-month development timeframe. The project included full app development, ensuring cross-platform functionality and user accessibility. Ongoing support has been provided to address bugs and troubleshooting, ensuring smooth operation throughout the portal's lifetime.

The solution has been implemented across various industries, including manufacturing, healthcare, and smart cities, significantly enhancing their operational capabilities and decision-making processes.

App Development for Low-Power Full Mesh Bluetooth System Integratable with DALI, Casambi, and Matter

Client

Mygom.tech

Developers used

1 CEO
1 Project Manager
2 Mobile App Developers
1 Backend Developer
1 UX/UI Designer
1 QA Specialist

Timescale

5 months for initial development +
2 months for testing and integration +
ongoing support

Challenge

Our client needed a custom mobile application to manage and control a low-power full mesh Bluetooth system. The app needed to seamlessly integrate with existing protocols such as DALI (Digital Addressable Lighting Interface), Casambi, and Matter to provide a unified control interface for lighting and smart building systems.

Solution

We developed a comprehensive mobile app with the following features:

Low-Power Bluetooth Integration: Optimized for communication with low-power full mesh Bluetooth systems, ensuring reliable and energy-efficient connectivity.
Protocol Compatibility: Integrated with DALI, Casambi, and Matter to allow users to control and manage lighting and smart devices across different systems from a single app.
User-friendly Interface: Designed with an intuitive UX/UI to simplify device management, settings adjustments, and scene creation.
Real-time Control: Enabled real-time monitoring and control of connected devices, with responsive feedback and updates.
Advanced Features: Provided functionalities such as scheduling, automation, and remote access to enhance user experience and system efficiency.
Security: Implemented robust security measures to protect user data and ensure safe communication between devices.

The app was developed within a 5-month timeframe, followed by an additional 2 months for comprehensive testing and integration with the DALI, Casambi, and Matter systems.

The solution was successfully deployed, and ongoing support has been provided to address user feedback and make necessary improvements. The app has been adopted in various smart building and lighting projects, providing users with a seamless and versatile control experience.