Jupiter specializes in digital hardware design (FPGA) for both commercial and aerospace application. We offer services and custom products in the following fields :

  • Advanced IP cores for SOC design
  • VHDL/Verilog-based FPGA design
  • FPGA development boards
  • Fault-tolerant computer design

Microprocessor / Micro-controller based designs

Jupiter specializes in developing, maintaining and supporting
robust microprocessor/micro controller based designs for both
commercial and aerospace application.


Microprocessor / Micro-controller Platforms

We offer services and custom products in the following fields: Intel X86, ARM core, SPARC platforms.

  • Intel 8051 platform
  • Inter X86, ARM core, SPARC platforms
  • GNU C, C++ Compliers. Debuggers, Assemblers, etc
  • Processor development boards
  • Testing and Servicing
  • Re and Reverse Engineering
  • Functional Text / Environmental Text / Vibration Test.
  • Rigid and Flexible pcbs
  • MIL 55110 pcbs & Mil – P-50884, UL & IPC 610.
  • Component Mounting and Stuffing.
  • Electronic Systems
  • Services with DRDO, Space Sectors, Aircraft and other R & D Labs

RFPI Systems

This system has 72 Nos. of boards in the name of four modules like Multi trip Module, Photo Multi trip Module, Field Emission Module and System Control Module for three sets. Each Module consist of two types of carrier boards i.e. cPCI carrier board and rear I/O carrier board. Apart from these carrier boards the modules has 3 types of mezzanine cards i.e. rear analog I/O mezzanine card (mounted on rear I/O carrier board), rear digital I/O mezzanine card (mounted on rear I/O carrier board) and 2 nos. of function specific mezzanine cards mounted on VME 64x / cPCI carrier board.Architecture of the module is as shown below


The unique functionality of each module is migrated on to the mezzanine board which are populated on VME 64x / cPCI base board


The above said four modules are identical with common CPCI 6U main board with two rear cards& two I/O cards accompanied two Mezzanine cards in which these boards are facing in the front facia panel. The Mechanical housing of the module is shown below for better understanding


TEST PROCEDURE FOR VME 64x CARD AFTER COMPONENTS ASSEMBLE

  • BASIC IMPEDANCE TEST FOR ALL THE VOLTAGE POINTS VCC WRT GROUND.
  • POWER ON TEST AND VOLTAGE READINGS SHOULD BE VERIFIED AS PER THE CUSTEMER ATP.
  • FPGA IO TEST
  • CYCLONE IV
  • CYCLONE V
  • CYCLONE V INTERFACING WITH DDR3
  • CYCLONE V INTERFACING WITH FLASH
  • INTERCONNECTION TEST CYCLONE IV AND CYCLONE V
  • MEZZANINE CARD INTERFACING WITH VME CARRIER
  • REAR CARRIER WITH DIGITAL AND ANALOG CARD
  • VME INTERFACING WITH REAR CARRIER
  • VME AND REAR CARRIER INTERFACING – INTERFACING SINGLE BOARDS (VME AND REAR CARRIER)
  • SYSTEM INTERGARATION – 3 VME WITH 3 REAR CARRIER

System Level Integration Test Image

STG Automated Test System

STG Automated Test System performs the automated Test & Evaluation of Stimuli Generator (STG) unit. It comprises of three components

  • Remotely controlled Hardware (preferably on RS-485 interface/ Ethernet) to provide various types of loads for STG signals. (STG-ATU)
  • Remotely controlled Measuring equipments (preferably on RS-485 interface/ ethernet) to measure the actual current/ voltage/ resistance of the different types of STG stimuli
  • STG automated T & E Application software to perform the test.

Features Of STG Automated Test Unit (STG-ATU)

  • ADuC 7026 / LPC2378 based system.
  • Switches Type-1 to Type-7 of STG Stimuli signals to various loads.
  • Switches TMPC signals for resistive measurements.
  • Internal Structure of STG Systems


  • Provides different types of loads for STG stimuli signals.
  • Provides remote interface on RS-485 Bus / Ethernet for Automated testing of STG
  • Bench Top DMM in current/voltage mode are connected to STG-ATU Front Panel Banana sockets for actual current measurements.
  • Front View of STG Systems


    Back View of STG Systems

  • All stimuli signal +ve & -ve are isolated either at STG end or at STG-ATU end.
  • The GYRO 16 bit data and Accelerometer data are read through the uC I/O port and measurements are made by STG-ATU microcontroller.

WP3 / P2020 Ethernet cards

  • WP3 CARD IS HIGH SPEED ETHERNET CARD, MAINLY DESIGNED & DEVELOPED FOR MILITARY APPLICATIONS FOR SECURITY PURPOSE. THE BOARD IS DESIGNED WITH 2 MAIN PROCESSOR – 1. WP3 & 2. P2020 AND INTERFACED WITH 14 DDR3’s, 1 FLASH, VITASE SWITCH.
  • THE BOARD IS 26 LAQYER STACK UP.

SRIO Switch Card

The CPS-1848 provides a full non-blocking bandwidth of 240 Gbps on up to 18 logical ports. The CPS-1848 uses a 5th generation switch fabric, building upon Gen 1 CPS and Tsi switching architectures. This new switch uses patent pending features to minimize latency, ensure scheduling fairness, and provide superior multicast throughput.


The CPS-1848’s 6.25 Gbaud SerDes is ideal for backplanes yet can run even lower power for local connectivity. This performance is realized over twice the transmission distance and three orders of magnitude improvement in bit error rate (BER) compared to the very capable Gen1 standard.

  • To meet our task we need our own place and more space to develop and to execute the work we have owned a land at Electronic City where huge Electronic companies has set their projects in this Location.
  • Also we have been sanctioned 1-acre KIADB land at Koorg Halli in Mysore for future development of our organization as production unit.
  • We have recognized and allotted ½ Acre Land by KIADB at Aerospace Park, Devanahalli , Bangalore to do operations for Avionics & Aerospace Projects to meet make in India Concepts .
  • THE BOARD IS 30 LAYER STACK UP



SRIO SWITCH CARD

HIGH SPEED ETHERNET SWITCH CARD MOTHER BOARD BACKPLANE, MAINLY DESIGNED & DEVELOPED FOR MILITARY APPLICATIONS FOR COMMUNICATION PURPOSE THE BOARD IS DESIGNED WITH MAIN PROCESSOR CPS-1848 & 89HP0608RZBABGI .FULL DUPLEX 240 Gbps BANDWIDTH

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