Notice Description : Supply of equipments/goods for the … · Improved breakpoint display 3.6...
Transcript of Notice Description : Supply of equipments/goods for the … · Improved breakpoint display 3.6...
B.I.T. Sindri
P.O. - Sindri Institute, Sindri,
Dhanbad, Jharkhand -828123
Notice
Description : Supply of equipments/goods for the establishment of IoT lab
Package Code : TEQIP-III/2019/JH/bits/29
Package Name : TEQIP-III/BITSindri/OTH/IOT
B.I.T. Sindri, Dhanbad wishes to establish an IoT laboratory as a central research facility. The
Technical specifications of the equipments/goods are provided below.
Interested manufacturers / authorized supplier are requested to fill in the Information Form
(Annexure - A) given below and send the filled, signed and stamped hard copy on or before 4:00 P.M. of
03/07/2019 at following address -
Director, B.I.T. Sindri,
P.O. - Sindri Institute, Sindri,
Dhanbad, Jharkhand -828123
Formal request for Financial and Technical proposal will be sent to the applied valid firms after
03/07/2019.
Technical Specification
Following items are required in the IoT Lab. to meet the requirement of B.Tech, projects and research
activities in the Institute.
Sl
No.
Item Specification
1.0 Industrial IoT Educational Software
Basic 10 Seat License
Enables the easy studying of IoT hardware and software concepts.
IoT links smart objects to the Internet. It enables an exchange of data never available
before and delivers information to users in a more secure way.
The IIoT expands the Internet and networks to places and applications such as
manufacturing floors, energy grids, healthcare facilities, and transportation. Industrial devices, such as sensors, actuators, and embedded controllers, are being connected to the
Internet to allow online and remote control and monitoring.
The trainer kit provides you with the opportunity to create different things, incorporate
sensors and actuators in them, and connect them to the cloud. As a cloud technology, the IIoT lab uses the PTC ThingWorx and IBM Watson platforms.
One of the main advantages of the kit is its comprehensive curriculum that covers various
aspects of the Internet of Things. It includes topics such as sensors and actuators, data
acquisition systems, and statistical analysis.
2.0 Systems Engineering Software: Professional Suite
For applications that require test, measurement, and control with rapid access to
hardware and data insights.
Consist of :- Hardware Integration, Acquiring data from embedded hardware,Acquiring data from
third-party hardware,Native graphical programming, Multithreaded code execution,
Event-driven programming,Object-oriented programming,Signal Processing and Control,PID and fuzzy logic, Signal conditioning and filtering,Read and write to file,
Database connectivity,Unit testing framework,Code Deployment and Distribution, Build
executables,Control programs remotely through Internet with below toolkits:
Real-Time Module
FPGA Module, IP Builder, and Compile Cloud
MathScript RT Module
Advanced Signal Processing Toolkit
Time-Frequency Analysis, Time-Series Analysis and Wavelets
Digital Filter Design Toolkit
SoftMotion Module
PID and Fuzzy Logic Toolkit for Windows
Vision Acquisition Software and many more…
3.0 Embedded System for Testing of code: Evaluation Board 1:- low-cost evaluation platform for ARM® Cortex™ based
microcontrollers
Preloaded RGB quick start application On-board In-Circuit Debug Interface
USB 2.0 device interface
Motion control PWM RGB user LED
Reset switch
Applications: -Embedded Design & Development, Automotive, Building Automation,
System Monitoring, Test & Measurement, Consumer Electronics, Communications & Networking, Hobby & Education
3.1 Embedded System for Testing of code:
Evaluation Board 2:-Should be used to develop high performance applications that benefit from low power operation
48MHz 32-bit ARM Cortex with floating point unit and DSP acceleration
Analogue - 24CH 14-bit differential 1MSPS SAR ADC, two comparators
Digital - Advanced Encryption Standard Accelerator, CRC, DMA, HW MPY32 256kB Flash, 64kB RAM
Timers - 4 x16-bit and 2 x 32-bit
Communication - up to 4 I²C, 8 SPI, 4 UART 40-pin BoosterPack connector and supports for 20-pinBoosterPacks
On-board XDS-110ET emulator featuring EnergyTrace+ Technology
2 Buttons and 2 LEDs for User Interaction
Back-channel UART via USB to PC Applications:-IOT based Embedded Design & Development
3.2 Low power wireless transceiver extension kit :-
1.8V to 3.6V operation Low power consumption
SPI interface between RF module
Operating band- European 868MHz to 870MHz and US 902MHz to 928MHz ISM bands
or higher Prototyping area
Footprints for adding a microcontroller, pushbutton switch, and LED for standalone
operation low power temperature sensor application
Star network topology with one hub node and up to four sensor nodes
Ability to change radio settings locally and/or remotely Remote control feature to turn on/off LaunchPad green LED
Node ID, operating state, and radio settings restored at power up
Applications:-Wireless, Security, Industrial, Building Automation, Hobby & Education,
System Monitoring
3.3 SIM800C 2G- board USB based –
USB interface, suitable to connect Laptop/Computer with USB
Compatible with Raspberry Pi boards, Driver's are available to install
USB power supply, No additional power supply needed
Micro SIM, 2dBi SMA antenna, Micro USB available for upgrade firmware, debug etc
TTL Rx and Tx pins are also available
3.4 4G-SIM7600 board –
Features
TDD-LTE B38/B40/B41 2600/2300/2500 MHz
FDD-LTE B1/B3/B5/B7/B8/B20 2100/1800/850/2600/900/800 MHz WCDMA/HSDPA/HSPA+ B1/B5/B8 2100/850/900 MHz
GSM/GPRS/EDGE 900/1800 MHz
Controlled by AT Commands. Supports Real Time Clock.
Input voltage range 4.5V ~ 12V DC operation.
Supports for eCALL. Integrated GPS/CNSS
Firmware upgrade over USB interface
Supports 3.0V to 5.0V logic level.
Normal operation temperature: -30°C to +80°C. Baud rate: 300bps to 4Mbps(default:115200bps)
Supports GPS NMEA protocol.
Standard Micro SIM Card. Supply voltage range: 3.4V~ 4.2V.
3.5 Embedded System for Testing of code:
Evaluation Board 3 :-flash programmer and debugging tool that provides everything
needed to start developing ,DIP target socket supporting up to 20 pins Built-in flash emulator connects flash-based Value Line devices to a PC for real-time, in-
system programming and debugging via the included mini USB cable
2 programmable LEDs, 1 power LED 1 programmable buttons, 1 reset button
Free & unrestricted compiler/debugger (IDEs)
IAR Embedded Workbench KickStart and Code Composer Studio both have free,
downloadable versions. Multi-file compilation, resulting in a single compiler output file
VisualSTATE build integration
Static watch window Symbolic memory window
Improved breakpoint display
3.6 12-key capacitive touch numeric keypad with LED backlighting and proximity
wake-up.
3.7
IoT Evaluation Module 1 :-
Plug-and-play evaluation platform for a wide array of ultra-mobile and ultra-portable display applications in consumer, wearable, industrial, medical, and Internet of Things
(IoT) markets.. This EVM comes equipped with a production ready optical engine and
processor interface supporting 8/16/24-bit RGB parallel video interface in a small-form
factor.
3.8 Embedded System for Testing of code:
Evaluation Board 4 :-
6-Bit RISC Architecture up to 16 ‑MHz Clock
Wide Supply Voltage Range (1.8 V to 3.6 V)
Ultra-Low-Power Ferroelectric RAM (FRAM)
IrDA Encode and Decode
Up to 64KB of Nonvolatile Memory
SPI at Rates up to 10 Mbps
Ultra-Low-Power Writes
High-Performance Analog With EnergyTrace++ Technology
16-ChannelAnalog Comparator
12-Bit Analog-to-Digital Converter (ADC)
32-Bit Hardware Multiplier (MPY)
Five 16-Bit Timers With up to Seven– High-Frequency Crystals (HFXT)
Capture/Compare Registers Each
3.9 IoT Enabled ARM® Cortex®-MCU Connected Development Kit :- The IoTEnabled
ARM Cortex- Connected Development Kit offers these features:-
Color LCD interface
USB 2.0 OTG | Host | Device port
BoosterPack™ and BoosterPack XL interfaces
Quad SSI-supported 512-Mbit Flash memory
MicroSD slot
Expansion interface headers: MCU high-speed USB ULPI port, Ethernet RMII and MII
ports External peripheral interface for memories, parallel peripherals, and other system
functions.
ARM® Cortex-M4-based microcontrollers
ARM® Code Composer Studio™ IDE
4.0 Sensor Hub :-
9-axis MEMS motion tracking
3-axis gyro
3-axis accelerometer
3-axis compass
Bosch Sensortec BMP180 pressure sensor
Sensirion SHT21 humidity and ambient temperature sensor
Intersil ISL29023 ambient and infrared light sensor
Non-contact infrared temperature sensor
4.1
Educational Booster Pack :- Light Sensor
TMP006 Temperature Sensor
Servo Motor Connector 3-Axis Accelerometer
User Push Buttons
RGB Multi-color LED Buzzer
40-pin Stackable BoosterPack Connector
Color TFT LCD Display
Microphone 2-Axis Joystick with Pushbutton.
4.2 Robotic Systems Learning Kit-
Teaches the foundations of an electronic system and includes:- MCU development kit
Motor drive and power distribution board
Robot chassis, motors, Line IR sensors
50+ other mechanical and electronic components
Microcontroller should interface with sensors, actuators, and motors; concepts of pulse
width modulation, flash ROM, analog to digital conversion, digital to analog conversion,
and serial data transmission Students should be able to build systems using finite state machines (FSM), closed loop
control, Bluetooth® low energy, and Internet of Things
5.0 FPGA Board with PMOD(Accessories) For Internet Of Things Lab
ZYNQ XC7Z010-1CLG400C FPGA based with 667 MHz dual-core Cortex-A9 processor or better processor & DDR3L memory controller with 8 DMA channels and 4 High
Performance AXI3 Slave ports, 1 GB DDR3L with 32-bit bus @ 1066 MHz.
16 MB Quad-SPI Flash with factory programmed 128-bit random number and 48-bit globally unique EUI-48/64™ compatible identifier microSD slot for memory
Camera connector with MIPI CSI-2 support, HDMI sink port (input) without CEC, HDMI
source port (output) with CEC, Audio codec with stereo headphone, stereo line-in, and
microphone jacks
Gigabit Ethernet PHY connectivity along with USB 2.0 OTG PHY with host and device,
USB-UART bridge support
On-board USB JTAG programming port for debug/programming
5 Pmod Ports, 4 Analog capable 0-1.0V differential pairs to XADC, 32 Total FPGA I/O, 8
Total Processor I/O
Powered from USB or any 5V external power source
Certification RoHS
6 push-buttons (2 processor connected), 1 RGB LED, 5 LEDs (1 processor connected), 4
slide switches
With below PMOD connectors a. Wi-Fi wireless Module
b. Ambient Light Sensor
c. Temperature Sensor d. Infrared Light
e. GPS Receive
f. Barometer (9-axis IMU Plus)
g. Accelerometer (3-axis MEMS ) h. Bluetooth Module
i. Digital Gyroscope(3-axis)
j. Multi-Touch Display System k. I/O Expansion
5.1 Embedded Hardware for Data Acquisition and Control Application: -
Portable chassis with Xilinx Z-7010 Processor, 667 MHz
Memory Nonvolatile memory : 512 MB
DDR3 memory : 256 MB
DDR3 clock frequency : 533 MHz
DDR3 data bus width : 16 bits
10 Channel analog inputs, ±10 V with Aggregate sample rate: 500 kS/s
USB Wired with Wireless device as added option
6 analog outputs Channel.
Adaptable for different programming levels
Resolution: 12 bits
Overvoltage protection : ±16 V
General-purpose 40 channel digital lines with 3.3 V output, 3.3 V/5 V-compatible input.
6.0 IoT Application Boards:
i. IOT Evaluation Kit 5 :-
USB 2.0-enabled 16-bit MCU
Up to 25 MHz
128KB Flash and 8KB RAM
12 Bit SAR ADC
Various USB device class examples and embedded software libraries available (CDC,
HID, MSC)
eZ-FET lite: Open source onboard debugger with application UART
One USB connection for emulator and target via the use of an onboard USB hub
USB as power source: 5V and 3.3V through a high efficiency DC/DC converter
40 pin LaunchPad standard leveraging the BoosterPack ecosystem
6.1 Wi-Fi® Module :-The Wi-Fi solution provides the flexibility to add Wi-Fi to any
microcontroller (MCU). This Internet-on-a-chip™ solution contains all you need to easily create IoT solutions – security, quick connection, cloud support, publicly available
documentation, E2E support forums and more.
Wi-Fi Network Processor in QFN package
Industry’s first devices to be Wi-Fi CERTIFIED™ at the chip level by the Wi-Fi
Alliance™
2 20-pin stackable connectors
On-board chip antenna with option for U.FL-based testing
Power from on-board LDO using USB OR 3.3V from MCU
2 push buttons
Jumper with 0.1 Ohm resistor for current measurement
0.8 megabit serial flash
40 MHz crystal, 32 KHz crystal and oscillator
U.FL and chip antenna
USB
4 Layer PCB with 6 mm spacing and track width
6.2
Wireless microcontroller Development kit :-
Development kit highlights a single-chip wireless microcontroller (MCU) with 1MB
Flash, 256KB of RAM and enhanced security features. It should feature on-board emulation and sensors for a full out-of-the-box experience.
Supports various IDE: CCS, IAR Embedded Workbench for ARM Cortex-M4
Standalone development platform featuring sensors, LEDs and push-buttons
On-board chip antenna with option for U.FL-based testing
2x20-pin stackable connectors
Back-channel universal asynchronous receiver/transmitter (UART) through USB to PC
XDS110-based JTAG emulation with serial port for flash programming
6.3 Wireless development tool in a watch:- This is a highly integrated, wearable wireless
development system in a watch. It may be used as a reference platform for watch systems, a personal display for personal area networks, or as a wireless sensor node for remote data
collection:-
Reprogrammable over Spy Bi-Wire
Watch reprogrammable for custom wireless applications
Includes on board 3-axis accelerometer, pressure sensor, temperature sensor, battery
voltage sensor
96 segment LCD display driven directly by CC430
Can be paired wirelessly with heart rate monitors, pedometers or other devices based RF
transceivers
Includes an USB emulator that connects tool to a PC for in system programming and
debugging
Supports IAR Kickstart and IDEs
Supports development with some 2xx Spy Bi Wire devices
Includes IAR Kickstart and Code Composer Studio integrated development environments
6.4 IoT Application Starter kit:-
Compatible with various development kits
Expansion board provides up to 13 Grove ports
10 specially selected Grove modules
Detailed guidebook with 11 getting-started examples
6.5 IOT Gateway Evaluation kit :- Microcontroller with its on-chip crypto acceleration
hardware,10/100 Ethernet MAC and PHY, USB 2.0, hibernation module, motion control pulse-width modulation and a multitude of simultaneous serial connectivity.
microcontroller
• Ethernet connectivity with fully integrated 10/100 Ethernet MAC
and PHY motion control pulse
width modulation (PWM) • Crypto acceleration hardware
blocks
• USB 2.0 Micro A/B connector • Four user LEDs
• Two user buttons
• One independent hibernate wake switch
• One independent microcontroller reset switch
6.6
IoT Development Board 1:-
It has 54 digital input/output pins (of which 14 can be used as PWM outputs), 16 analog inputs, 4 UARTs (hardware serial ports), a 16 MHz crystal oscillator, a USB
connection, a power jack, an ICSP header, and a reset button. It contains everything
needed to support the microcontroller; simply connect it to a computer with a USB
cable or power it with a AC-to-DC adapter or battery to get started.
Operating Voltage 5V
Input Voltage (recommended) 7-12V
Input Voltage (limits) 6-20V
Digital I/O Pins 54 (of which 15 provide
PWM output)
Analog Input Pins 16
DC Current per I/O Pin 40 mA
DC Current for 3.3V Pin 50 mA
Flash Memory 128 KB of which 4 KB used by bootloader
SRAM 8 KB
EEPROM 4 KB
Clock Speed 16 MHz
6.7 IoT Development Board 2:- 1.4GHz 64-bit quad-core processor, dual-band wireless
LAN, Bluetooth 4.2/BLE, faster Ethernet, and Power-over-Ethernet support (with
separate PoE HAT) Broadcom BCM2837B0, Cortex-A53 (ARMv8) 64-bit SoC @ 1.4GHz
1GB LPDDR2 SDRAM
2.4GHz and 5GHz IEEE 802.11.b/g/n/ac wireless LAN, Bluetooth 4.2, BLE Gigabit Ethernet over USB 2.0 (maximum throughput 300 Mbps)
Extended 40-pin GPIO header
Full-size HDMI
4 USB 2.0 ports CSI camera port for connecting a Raspberry Pi camera
DSI display port for connecting a Raspberry Pi touchscreen display
4-pole stereo output and composite video port
Micro SD port for loading your operating system and storing data 5V/2.5A DC power input
Power-over-Ethernet (PoE) support (requires separate PoE HAT)
7.0 Sensor & Transducer Bundle for IoT Projects:
i. Shields And Modules Package
A. Development Board 1 - 4 Relays Shield
B. Development Board 1 - LCD KEYPAD SHIELD
C. Development Board 1- ETHERNET SHIELD D. MICROSD CARD ADAPTER
E. ESP 8266 (WIFI Module)
F. L293D Arduino motor drive shield for Servo Stepper And DC-Motor G. GPS NEO 6M (GPS MODULE) UBLOX
H. 25V Voltage Sensor Module
I. Development Board 1-Joystick Module J. Development Board 1- ProtoShield with Mini Breadboard
7.1 Mechatronics Accessory Kit
Common Sensors and Actuators for Mechatronics Projects
Ultrasonic range finder (accurate readings of 0 in. to 255 in. or 6.45 m) Compass
Servo motor: standard (215 degrees rotation)
Servo motor: continuous rotation Accelerometer (3 axis, digital - SPI and I2C)
Digilent Motor Adapter for myRIO (compatible with gear motor and servos)
Gyroscope (3 axis, digital - SPI and I2C)
Infrared proximity sensor (10 cm to 80 cm) Ambient light sensor (SPI)
Barrel connector with leads
Assorted capacitors Diodes
7-segment display
Mechanical rotary encoder Photo interruptor (light sensor with LED)
Assorted op-amps
Assorted LEDs
Small DC motor (1 VDC to 3 VDC, no load speed: 6600 rpm) Microphone with audio jack
MXP Breadboard Accessory
Potentiometer (500 kΩ) Relay
Assorted resistors
Piezoelectric sensor
Photocell 2 Hall effect sensors (latch and switch)
Buzzer
Assorted switches (DIP, slide, and rotary) Thermistor (NTC: 10 kΩ, 25 degrees)
Assorted transistors
Force sensing resistor
Wire kit
7.2
Basic Sensor & Actuator Package
K type Thermocouple
J Type Thermocouple
Stepper motor Servo Motor (9g)
Humidity Sensor (DHT- 11)
Pressure Sensor(barometric BMP180) Strain Gauge
Soil Moisture sensor
PIR Sensor Proximity Sensor
Heartbeat Sensor
Sound Detection Sensor
Color Detection Sensor REES52 MQ2 Arduino Compatible Gas Sensor, Methane, Butane, LPG, Smoke
Sensor
IR Sensor Module (Obstacle Sensor) ADXL335 Triple Axis Accelerometer
Hall Current Sensor Module (5A)
7.3 Advance Sensor Package
I. GPSN-100 Gas Pressure Sensor
Input Range 20 - 250 kPa, Output Range 0.2V to 4.8V, Default scaling Value :Vout
for 760mm Hg is 1.86V , Vout for 860mm Hg is 2.13V, Pressure range 20 - 250kPa
II. BP-220 Blood Pressure Sensor Output Range:0V to 0.7341V, Input Rang: 0 - 300 mmHg, Default Scaling Value:
1V=408.6 mmHg or 0.2447V=100mmHg
III. FT-220 Hand Dynamometer
Diameter: 2”, Length: 4.25”
IV. PTN-104 Pulse Sensor Typical Pulse Output: 200mV, Connector:Mini DIN7
V. TMN-100 Temperature Sensor Temperature Range: 0 - 50
oC, Default scaling Value: Temp in
oC = 9.875*Volt +
31.98
VI. SPN-304 Spirometer (with flow head) Input Range: -2 kPa to 2 kPa, Output Range:
0.5V to 4.5V, Default scaling Value: Written on individual unit in mmH2O,
Sensitivity—26.4mmHg/V, Connector: MINIDIN7
VII. HSMN-300 Heart Sounds Sensor
Unit contains a differential air pressure sensor that measures the difference in air
pressure between the two ports.
VIII. RMN-204 Respiration Belt The RMN-204 Respiration Monitor is a transducer used to measure the relative depth
and frequency of breathing in a human subject during experiments where it is impractical to monitor breathing with a spirometer.
IX. EMN-100 Event Marker The EM-220 Event Marker connects to one of the event marker (EM) jacks on the rear
of the IX-TA-220. It produces a voltage change on its dedicated channel as long as the
button is pressed. It can be used to measure reaction time in psychophysiological and
human nervous system experiments.
X. PHRMN-100 Polar Heart Rate Monitor,
XI. PHRMN-100, the voltage changes that take place during an electrocardiogram are
picked up by two electrodes on the inside of a band around the subject's chest.
XII. GNN-100 Goniometer Input Range:45
o to 180
o, Output Range: -2V to 3.5V
Default scaling Value: 180o = 3.43V ; 90
o = 0V ; 45
o = -1.94
Sd/- Director,
BIT Sindri, Dhanbad
ANNEXURE- A
B.I.T. Sindri
P.O. - Sindri Institute, Sindri,
Dhanbad, Jharkhand -828123
INFORMATION FORM
(To be properly filled, signed and stamped)
Description : Supply of equipments/goods for the establishment of IoT lab
Package Code : TEQIP-III/2019/JH/bits/29
Package Name : TEQIP-III/BITSindri/OTH/IOT
1) Name of the firm :
2) Official address with Pin Code :
3) e-mail address :
4) Phone/Mobile Number :
5) PAN Number :
6) TAN Number :
7) GST Number :
8) Name of official Representative :
a) Post held :
b) Phone Number :
c) e-mail Address
We declare that we are interested to supply the above mentioned equipments/Goods
Date Signature and official stamp