Arvind Munde

Product Engineer

Pune, Maharashtra, India11 yrs 6 mos experience

Most Likely To SwitchHighly Stable

Key Highlights

Expert in FPGA and embedded systems design.
Proven track record in automotive and healthcare projects.
Strong background in analog circuit design and PCB layout.

Stackforce AI infers this person is a highly skilled Embedded Systems Engineer with expertise in Automotive and Healthcare industries.

Contact

Skills

Core Skills

Embedded SystemsAnalog Circuit DesignMicrocontrollersFpgaPower Distribution

Other Skills

Analog SensorsAssembly LanguageCCAN InterfaceCode Composer StudioDC-DC ConvertersData AcquisitionData LoggingFPGA ProgrammingGSMI2CLED Driver ControlLED Lighting SystemsMicrocontroller ProgrammingPower Supply Design

About

• Experience in system design workflow from initial specifications to final delivery. • Experience in PCB design using: Cadence Allegro Design Suite (Schematic, PCB Design, Signal Integrity analysis, Power Distribution Network analysis, EMI analysis). Altium Designer (Schematic and PCB Design) • Experience in Analog simulations using: PSpice using OrCAD Capture CIS. Multisim, TINA-TI. • Experience in hardware testing and board bring-up. • Experience with Xilinx FPGA design tools Vivado and ISE. • HDL programming in Verilog. • Experience in Arduino Programing language. • Working knowledge of Analog VLSI Design tools from Cadence. • C and assembly language programming for ARM, 8051.

Experience

Sedemac

2 roles

Principal Electronics Hardware Engineer

Promoted

Jul 2022 – Present · 3 yrs 8 mos

Electronics Design

Dec 2016 – Jun 2022 · 5 yrs 6 mos

Execute the entire design and development cycle including customer requirement study, cost-effective design, verification & validation, release to production, troubleshooting.
Project:
CRDI means direct injection of the fuel into the cylinders of a diesel engine via a single, common line, called the common rail which is connected to all the fuel injectors. So controlling amount of fuel injected in cylinder by using Accelerator paddle sensor, Crank sensor and CMA Sensor input for Six cylinders Engine.
Microcontroller: TC265 (Dual Core ) Infineon
Analog Sensor Input: Accelerator paddle, Crank ,CMA, Boost Pressure, Boost Temperature, Oil Pressure, Oil Temperature, Rail Pressure, Fuel Temperature, Coolant Temperature, Water in fuel Sensor, EGR Valve position, Multi state analog.
Digital Input Signals and Power Supply
Driver: BTT6030(High Side Driver), TLE8718(Low Side Driver), TLE6209R(H Bridge Driver), PT2000(Injector Driver).
Interface: CAN, MSC, SPI.

Analog Circuit DesignMicrocontrollersEmbedded SystemsPower DistributionSignal Integrity

Embryyo

Embedded Design Engineer

Jul 2015 – Nov 2016 · 1 yr 4 mos · Pune Area, India

Project 1
Title: Phototherapy System for severe newborn jaundice. (Currently working, Embryyo, Pune)
Description: Design a system which will give Irradiance within 10-50 uW/cm/nm range by using the Blue LEDs having 450-465 nm wavelengths. The Irradiance will be controlled by Microcontroller using LED driver. The temperature sensor will be used to measure temperature of the system.
Key Interfaces: LED driver(PWM/SPI), Temperature Sensor(I2C), LCD display(I2C), Buzzer.
Project 2
Title: The Drug adherence monitoring system for TB patients (Embryyo, Pune)
Client/ Funded by: IKP Knowledge Park, USAID
Description: Designed mobile device that patients take home, which detects activity on each and every pill from the blister pack. It also records the time at which the individual pills were taken. The recorded time, pill number and number of pills send to server. The microcontroller (Atmega328) is used to sense activity on blister pack and send message to server using SIM900A.

Embedded SystemsMicrocontrollersLED Lighting SystemsI2CSPI

Bit mapper integration technologies pvt. ltd

Embedded Design Engineer

Jul 2014 – Jun 2015 · 11 mos · Pune Area, India

Project: 1
Title: Reconfigurable system for signal processing (M-Tech project at Bitmapper, Pune)
Client: DLRL (DRDO) Hyderabad
Description: Designed a system in which data acquisition is done on Xilinx Artix7 FPGA and data processing is done on Xilinx Zynq7 FPGA. This system consists of 18 high-speed (250 MSPS) and 9 low speed (40 MSPS) ADC channels interfaced to Artix7 FPGA. The system consists of SMA connectors for analog inputs and MIL-grade circular connectors for command and control. Artix7 FPGA is used for data acquisition/ processing and Zynq7 FPGA is used as system master for controlling the system.
The Zynq7 FPGA consists of various interfaces like Ethernet, SDIO, SPI, I2C, and DDR3 memory. The Zynq7 FPGA accepts command from a remote location over Ethernet and uploads the data acquired by Artix7 FPGA to the remote location. The system accepts a 28V DC power input and the various voltage levels are generated on board using DC-DC converters and LDO with proper power sequencing.
Key Interfaces: DDR3, NOR flash, QSPI, eMMC Flash, DDC MIL-1553, Ethernet, RS422, 18 ADCs (9 High speed I/Q, 9 Low speed), RS232, RS422, I2C, SPI, JTAG.
Board Simulation:
Signal integrity Analysis for High Speed ADCs and DDR3 memories
Power distribution Network analysis for high current DC nets (1V, 5V, 1.35V, 3.3V)
EMI analysis for critical high-speed nets.
Project:2
Title: Power Distribution Module (Bitmapper, Pune)
Client: DLRL (DRDO) Hyderabad
Description: Designing a power supply for delivering up to 200W output on 28V.