Service Offerings
Customize Embedded Hardware
- Hardware Architecture
- Schematics
- Circuit Simulation
- PCB Design
- Prototyping
- BOM Management
- Validation Testing
- Reliability Analysis
- DFM, DFA
Firmware Engineering
- Bootloader Development
- Device driver Development
- Application & Diagnostics Development
- Code Porting
- Library Development
- Documentation
Connectivity Solutions
- BT/BLE, Wi-Fi, LoRA
- NFC/RFID
- 3G/LTE/GPS
- LIN/CAN
- USB/Serial/Parallel
- Edge, Server and Cloud Integration
- Data Analytics
- Cloud Dashboard
System Level Development
- Prototype Build
- Hardware Mechanization
- System Level DFMEA
- Functional Safety
- Security
- Product MDS documentation
- VAPT Testing
Validation & Verification
- DVP & R
- Engine Durability and Emissions Testing
- Vehicle Indoor and Outdoor Testing
- EMI/EMC Validation
- Mechanical Validation
- Environmental Validation
Workflow
- Gather requirements and analyze the inputs.
- Decide control strategy for the inputs.
- Form a model with the required specifications.
- Simulate the model.
- Validate data based on the relevant physical system
Parameterization
- Develop Features and Functions
- Evaluate physical system performance.
- Calculate component specification based on the performance
- Determine dependency of the component’s specifications on the overall system.
System Validation
- Establish traceability between the model and the code.
- Determine that the code executes properly in its final software and hardware environments.
- Involve model checks as well as SIL, PIL & HIL testing.
Embedded Application
- Reduce dependency on the development environment and protocols.
- Custom toolboxes for the controller family and architecture.
- Seamless application flashing on the hardware.
Software Interoperability
- Utilize features of various tools.
- Produce precise results to that of real time.
- Maintain the simulation model in a single tool.
- Reduce development time for custom code of a block that is already available.
System Design
- XEV system design
- Test system design: after-treatment,
- Component sizing
- Defining Boundary Conditions
- System specification
- Component/System architecture detailing
- Design for certification
- D/PFMEA
Component Design
- Component Sizing and selection
- Advanced techniques like Simulink model
- Prototyping
- Frugal Engineering – In-house
- Component Sourcing
- Design for certification
- DFM, DFA, DFS
- FMEA
Simulation
- CAD and CAE support
- Physics based modeling
- 1D simulations
- Design Optimization
- Data collection / Analysis / Forecasting
- Vehicle performance prediction: max speed, acceleration, gradeability
Integration
- Vehicle Integration
- Controller/Hardware: Battery pack, VCU, BMS, OBC etc.
- Mechanical integration
- 2-wheeler, 3-wheeler, 4-wheeler (Passenger and commercial vehicles)
- Vehicle retrofitment with XEV powertrains
- HV&LV harness Development
- Diagnostic Troubleshooting Trees
Testing & Validation
- System & Component level
- Test & validation layout
- IS, AIS, DNV-GL etc.
- Test Rig Development
- Homologation spec validation
Data Collection
- Live Tracking
- IoT Enablement
- OBD and CAN Data
- Fuel and Driver Behavior Monitoring
- Server and Cloud Setup
- Data Validation
- Data Security
Data Analysis
- Feature Extraction
- Clustering and Profiling
- Sorting
- Data calibration
- Data synchronization
- Thresholds
- Trends
Data Fusion
- GNSS/IMU Fusion Systems
- Competitive Fusion
- Distributed and Centralized Architecture
Decision Making
- Neural Nets
- Hierarchical Decision Making
- Redundancy
- Collision Avoidance
- Integration with Robot Operating System (ROS)
Data Dashboards
- Cloud Dashboard
- Login Authentication
- Data Visualization
- Device Management and Administration
Case Examples (Electric Powertrain)
Re-chargeable Energy Storage System
- 2 Wheeler / 3 Wheeler – Modular and Swappable Battery Pack
- 350 V Battery Pack for Bus Hybridization
- BMS Integration for battery pack
- Flexible Wiring Harness Integration
- UCMS – Ultra Capacitor Monitoring System
- Battery Pack for ESS Applications
- Refurbishment of Battery Pack
- Repurposing of Used Li cells
HV Integration
- Power Distribution Box
- 350 V vehicle integration for Hybrid Mini Truck
- 350 V – EV integration for Retrofittment
- HV Integration – Electric Bus
- MOSFET based Battery Disconnect Unit
- Contactor Integration
- Smart Disconnect Unit for ESS
- Accessory Power Unit for Recreational Marine Application
Motor Development
- Axial Flux Motor Development
- Axle Integrated Motor Development for Heavy Applications
- Auxiliary Motors for Skid Steer Loaders
- BLDC Motor integration for 2-wheeler with transmission optimization
- Motor/Generator Integration Logic for Hybrid Application
E/E Interface
- Electrical architecture development for 3 Wheeler
- EMI/C Testing and Validation at component and system level
- Electrical architecture for AGV
- EV retro-fittement for forklift
- Powertrain integration in LCV
- Battery pack for Hybrid LCV
- VCU integration in Bus
- Vehicle Integraton for series hybrid
Vehicle Electronics
- Smart Dashboard for 2 Wheeler/3 Wheeler
- IoT Enabled Remote Control for EV
- Solar integration for 2 Wheeler charging
- Retrofittment of existing ECUs with configurable ECUs
- Vehicle Controller for 3 Wheeler Application
- Vehicle Controller Logic for Electric Bus
- Smart Logic for Charging optimization for Fork Lift
CASE STUDIES
Problem statement: The customer wanted to mechanize an electronic control strategy without using Bosch/Continental controllers for their Opposed Piston Engine
Engagement Model: Offsite Team with Onsite rep
Scope of Work:
- Team Development - Ramped US based team from 1 to 8 resources
- Lab Setup
- Hardware Architecture for Engine Controls
- Model Based Software Development
Outcome: Devise delivered the production intent architecture to the customer
Problem statement: The customer wanted to develop IoT edge devices and a standard interfacing library
Engagement Model: Offsite Team
Scope of Work:
- Back end engineering team
- PCB Development
- Controller Prototyping
- Application support
- Cloud Interface
Outcome : Devise enabled them to progress out of stealth mode
Problem statement: The customer was developing multiple new controllers and was overwhelmed by the test and validation costs. They were looking for options to reduce the testing costs.
Engagement Model: Project Based
Scope of Work:
- Regulatory Understanding
- Determination of tests required for certification
- Lab Interaction
- Testing and Reporting
Outcome: Devise aided time-bound testing and a significant reduction in testing cost
Problem statement: The customer was developing multiple new controllers and was overwhelmed by the test and validation costs. They were looking for options to reduce testing costs.
Engagement Model: Project Based
Scope of Work:
- Regulatory Understanding
- Determination of tests required for certification
- Lab Interaction
- Testing and Reporting
Outcome: Devise aided time-bound testing and a significant reduction in testing cost
Problem statement: The customer was developing multiple new controllers and was overwhelmed by the test and validation costs. They were looking for options to reduce the testing costs.
Engagement Model: Project Based
Scope of Work:
- Regulatory Understanding
- Determination of tests required for certification
- Lab Interaction
- Testing and Reporting
Outcome: Devise aided time-bound testing and a significant reduction in testing cost
Problem statement: The customer wanted to develop service complaint to be assigned directly to the field engineer and to generate all the data as a report
Engagement Model: Offsite, Project Based
Scope of Work:
- Development of native application
- Identification of activities need to be tracked
- App integration with back-end data base and Admin Panel
- Data collection and analytics
Outcome: Successful launch of Application based solution as per customer requirement.
