Introduction – GSN. Sensaphone. Sensaphone WSG30 Wireless Sensor Gateway Web Based Monitoring with Wireless Sensors Introducing the new Sensaphone Wireless Sensor Gateway system. The WSG30 is a unique wireless sensor monitoring system that can be used in more than one way. As a standalone system, it can monitor a variety of conditions from the wireless sensors and directly notify the appropriate personnel by sending e-mails and text messages. The WSG30 can also be used within an existing industrial automation system and communicate directly with existing HMI software using the Modbus protocol.
Up to 30 wireless sensors can be monitored by the WSG30 in addition to automatic power failure alarm detection and diagnostic alarms. If any sensor has a low battery or drops offline, a diagnostic alarm is generated and users are contacted. Sensors Specifications Support Documents/Downloads Video Not sure what product is best for your application? PicoBoard - Sensor Board that works with MIT’s Scratch. PicoBoard.
OpenPICUS. Hoarder (SAK) board. Hoarder aka Swiss Army Knife (SAK) board E-mail questions to Vadim Gerasimov <vadim@media.mit.edu> The purpose of the board is to collect and preprocess sensor data. The board can be configured and programmed for a wide range of data acquisition tasks. For example, it can record sound with a microphone add-on board or measure EKG, breathing, and skin conductivity with a biometric daughter board. The board was designed as a part of the Every Sign of Life project. This is completely open design. SchematicsBoard layout -- FRONTBoard layout -- BACKDaughter board headerSerial portBiM2 to PC adapterBill of MaterialsProduction Files (Gerber, NC Drills, etc)SoftwareBiometric Daughter Board Hoarder board features.
Projects. The Sensor Network Museum. Manufacturer Documentation: Fleck Overview [pdf] The Fleck series of nodes have been developed at CSIRO ICT Centre, Australia since the end of 2003. Similar to, and inspired by, the Mica-2 mote, the Flecks were designed to overcome limitations in those devices by providing: One board solution, screw terminals give access to digital and analog channels Robust expansion board interface inspired by PC/104 standard, two electrical connectors for stability and the ability to bolt the boards together, and stackable Integrated solar charging, just connect solar cell and batteries to terminals Single connector to allow for programming and access to serial ports Long-range radio based on 430 and 915MHz radio chips (nRF903 and nRF905) from Nordic Semiconductor.
Range over 1000m with a λ/4 whip antenna. The group is particularly focussed on outdoor applications where long range and energy self-sufficiency are critical. Fleck1 The first generation using Atmega 128 and nRF903 radio. Fleck2 Fleck3 Inertial. Particle Devices.
Location Awareness. Atmel ATmega.