Both ECN and Wireless Design & Development (WD&D) have published a recent article by Powercast titled “RF energy Harvesting Perpetually Powers Wireless Sensors”, which looks at using broadcasted RF energy as a reliable long-term power source for battery-less wireless sensors.
Read more at EDN | Read more at WD&D
An article in RFID Journal recently reviewed the Powercast Lifetime Power Wireless Sensor System which has battery-less wireless sensors (passive wireless sensor tags) powered by RF energy.
“Powercast Corp. is marketing active RFID sensor tags that harvest power from RF signals. The system includes an RF transmitter that provides power signals to sensor tags, and a gateway that receives information transmitted by those tags. The company’s focus is on developing solutions for the wireless transmission of sensor data, such as what is required by data centers. In this case, rather than using wired sensors or traditional active RFID tags to send sensor data regarding a room’s conditions, the Powercast system simply uses continuous RF signals to charge a battery or capacitor built into a sensor tag. The solution, known as the Lifetime Power Wireless Sensor System, targets the heating, ventilating and air conditioning (HVAC) sector, as well as other building-controls industries, by providing a solution for acquiring data from sensors for heating and air-conditioning, lighting controls, access controls or other building automation.”
As announced back in October 2010, Powercast released a development kit to showcase using RF energy for remotely powering battery-free wireless sensors. Jon Titus of Design News was gracious enough to review the kit and gave Powercast ratings of 5 out of 5 in all four areas of the review: Ease of Set-up, Quality and Clarity of Documentation, Overall Experience, and Meets Expectations.
The article is titled “Kit Harvests RF Energy” and we appreciate the subtitle “Engineers who must implement low-power devices that cannot run on local power need this kit from Powercast Corp.”
The components in the kit enable wireless and battery-free operation of the sensor nodes at a distance of 40-45 feet (13-15 meters). Each sensor board can measure temperature, humidity, light, and an external sensor. This can be used for a number of applications including building automation, energy management and industrial monitoring. Power is provided by Powercast’s new 3W transmitter (TX91501-3W-ID), which also sends factory-set data. The P2110 Powerharvester receiver converts the RF energy from the receiving antenna and stores it into a capacitor, which is then boosted to operate the wireless sensor board. The Microchip XLP 16-bit Development Board with the 802.15.4 radio is the access point.
In an earlier post we demonstrated an iPhone powering LEDs in close proximity using Powercast’s RF energy harvesting technology.
The video below demonstrates the use of a standard iPhone in 2G mode to generate RF energy that is used to power a battery-free wireless sensor node. The sensor node is part of Powercast’s Lifetime Power (TM) Energy Harvesting Development Kit for Wireless Senors (P2110-EVAL-01), the receiving board is based on the P2110 Powerharvester Receiver, and the antenna was slightly modified from it’s original tuning for 915MHz.
The wireless sensor node was designed by Powercast and Microchip for ultra-low power operation. At a distance of 2 feet from the iPhone packets are transmitted from node every every 1-2 seconds. As this video shows, mobile phones can be a practical, portable source of wireless power for a wide range of applications.
Powercast, with the development support of Microchip, has released the Lifetime Power® Energy Harvesting Development Kit for Wireless Sensors. This kit provides wireless power for remote, battery-free wireless sensor networks (WSN).
The kit (part number P2110-EVAL-01) includes the following items:
1 - 3W Powercaster Transmitter - 915MHz (TX91501-3W-ID)
2 - P2110 Evaluation Board (P2110-EVB)
2 - Directional, patch antennas - 915MHz
2 - Omni-directional dipole antennas - 915MHz
2 - Wireless Sensor Boards (WSN-EVAL-01)
1 - Microchip XLP 16-bit Development Board
1 - Microchip 802.15.4, 2.4GHz radio
1 - PICkit programmer/debugger
The components in the kit enable wireless and battery-free operation of the sensor nodes at a distance of 40-45 feet (13-15 meters). Each sensor board can measure temperature, humidity, light, and an external sensor. This can be used for a number of applications including building automation, energy management and industrial monitoring. Power is provided by Powercast’s new 3W transmitter (TX91501-3W-ID), which also sends factory-set data. The P2110 Powerharvester receiver converts the RF energy from the receiving antenna and stores it into a capacitor, which is then boosted to operate the wireless sensor board. The Microchip XLP 16-bit Development Board with the 802.15.4 radio is the access point.
Randy Frank has written a good summary of the state of energy harvesting technology for Electronic Design in an article titled “Making Energy Harvesting’s Promise of Free Energy a Reality”.
With its allure of free energy and maintenance-free operation for lifetimes of 10 and even 15 years, energy harvesting (EH) is grabbing the attention of potential users in many markets. Recent EH developments have made great progress, and the pieces appear to be falling into place.
System components such as microcontrollers (MCUs), RFICs, and power-supply ICs have had to drastically reduce their power consumption and increase performance to complete a useful energy-harvesting system. In addition, software that controls the power management, data collection, and transmission processes while avoiding any unnecessary power consumption is essential.
The article includes several graphics, including the following general diagram of a wireless sensor node.
Companies mentioned in the article include HP, EnOcean Alliance, Perpetuum, Micropelt, Powercast, Enertia Energy Systems, Tellurex, CYMBET, Infinite Power Solutions (IPS), Perpetua, CAP-XX, Microstrain, Microchip, Texas Instruments, Analog Devices, and Linear Technology.
A joint article by Powercast (Harry Ostaffe, Charlie Greene) and AVX (Bharat Rawal), titled “Power Module and Double Layer Capacitor Harvest Energy From Radio Signals“ was recently published in Power Electronics Technology. Combining Powercast’s P2110 Powerharvester receiver with an AVX Double-Layer Capacitor (super-capacitor) results in a battery-free, wireless power supply that can be used for low power applications such as wireless sensors. The article describes in detail the operation of the P2110 Powerharvester.
Figure 1 shows a general block diagram of the P2110 Powerharvester. The RF energy is converted to DC and stored into an external capacitor. For some applications a small electrolytic capacitor may be sufficient, but other cases will require more energy and therefore a larger double-layer capacitor (super-capacitor). The voltage on the external capacitor is typically managed between the operating range of 1.25V, when the output voltage is turned on, and turned off at the low threshold of 1.05V. The boost converted is used to provide a regulated output voltage from a range of 2-5.25V to accommodate a wide range of applications.
The timing diagram in Figure 2 provides more detail on the operation. The INT pin provides a logic-level output to indicate when Vout is active, and the RESET pin enables an external device such as a microtontroller or external timer to turn off Vout. The RESET function saves energy and allows the P2110 to recharge the capacitor more quickly.
Figure 3 show a system-level implementation that is typical in a wireless sensor, such as HVAC control sensors using ZigBee, WiFi, or other protocols, or industrial sensors using ISA100 or WirelessHART.
The Economist has has written an interesting article about wireless power as envisioned by Telsa and today’s efforts on ambient RF energy harvesting:
Power from thin air
Wireless technology: It is already possible to send electricity without wires. Can devices be powered using ambient radiation from existing broadcasts?
Powercast demos prelude to mobile network RF energy harvester
Directed RF energy harvester demo is stepping stone to full ambient RF harvesters that can siphon energy from ubiquitous mobile networks
“After setting up an RF energy-harvesting demo at this week’s Sensors Expo collocated with ESC Chicago, Powercast’s director of marketing Harry Ostaffe presented a paper that outlined the concepts and paths to what he believes to be the endgame: full ambient RF harvesting capabilities that sip power from ubiquitous mobile networks and eliminate batteries and direct RF power sources completely.” Read more…
Powercast presentation - Power Out of Thin Air (PDF)
Powercast will participate as an exhibitor at the 2010 Sensors Expo & Conference. At the event Power will be demonstrating a battery-free wireless sensor module powered by RF energy and designed for ultra-low power consumption. The sensor module provides temperature and humidity data to an access point along with the received signal strength (RSSI) and the ID number of the Powercaster™ transmitter from which it is receiving power.
Powercast has recently released the P1110 and P2110 Powerharvester™ Receivers which are capable of converting radio waves in the range of 850-950 MHz into DC power. The demonstration sensor module uses the P2110 Powerharvester receiver to store the received energy into a capacitor, and then performs a voltage boost to supply the module components will a regulated voltage. Both the P1110 and P2110 enable a microcontroller to determine the signal strength of the received power, as well as to recover low-rate data encoded in the power broadcasted from the power transmitter.
Harry Ostaffe, Director of Marketing and Business Development for Powercast, will also be delivering two presentations during the event. During the pre-conference symposium on June 7, 2010 he will speak on “Design Techniques for RF Energy Harvesting Devices”, and during the main conference on June 8, 2010 he will also present “Power Out of Thin Air: Ambient RF Energy Harvesting for Wireless Sensors”.
Powercast’s exhibit and wireless sensor demonstration will be located at Booth 1022 in the exhibition hall.
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