FR2996332A1 - Device for identification and traceability of wood in plate, has plate carrying bearing support of UHF radio frequency identification and comprising heel maintained in horizontal position by effect of its flat support against cutting plane - Google Patents

Abstract

The device has a plate (1) comprising a heel (4) on a side, where the heel is immersed at an angle of 45 degree. The plate carries a bearing support (6) of UHF radio frequency identification (RFID) (7). The heel is raised and maintained in horizontal position by simple effect of flat support against a cutting plane of wood (11) during final fixing of the plate to the wood. The heel optionally includes a crutch on its support. An assembly of the heel and the support is an integrated part of the plate or optionally a part connected by bonding or clipping.

Description

The present invention relates to the identification and traceability of wood, in its many transformations of the tree to finished wood products, mainly by means of identification plates with RFID. In the field of wood, several patents not recent and recent deal with the issue of identification and traceability of wood, through various inserts generally platelet-shaped; these pads as the name suggests being of a flattened volume and fixed flat against the wood. The use of the new technique RFID (radio frequency identification) already appears in several patents as a means of identification of wood.

The most significant patents being: * Patent Leuvrey 91 01877 of 18.02.91 / 2 673 026, already evokes the use of a "decodable radio label without contact" * patent Leuvrey 007882 of 19 06/002810 436, evokes an "information element contains a chip or transponder" * patent application Latschbacher US202 / 0170213 A1 Nov 21.2002 late introduces the idea of integrating a label, with RFID, with a flat plate of wood identification, these laying devices already operated and defined previously as in the Leuvrey patent No. 87 01700 of 11 02 1987/2 610 749 * the patent Leuvrey N'FR 07 08671 of 12 12 07 already integrates traceability solutions with an RFID-LF ( low frequency) contained in a "glasstag" (small carbon capsule), in an insert that attaches mainly to trees. * Patent Leuvrey No. FR 0007882 of 19.06.00 "Improvement to wood chips and inserts identification" involves RFID in the inserts and wood identification plates * the report of January 31, 2002 of the European project "Lineset" piloted by the Trâtek Institute (Anders Lycken) of Sweden, (Didier Pischedda, Wood Technical Center, France) shows Leuvrey platelets with RFID tags. * Leuvrey patent application No. 11 02438 of 03 08 2011 involves a screen opposing only EM waves emitted by the wood (these waves can disrupt the waves emitted by RFID UHF); this screen is flat, conductive metal material not connected to the RFID is always placed on the surface of the wood between the wood and RFID, and not between a remote drive remote wood and RFID.

This document does not address the issue of a screen having reflective EMID RF forwarding function to a reader; this document does not envisage any more the possibility of a 2nd conducting antenna amplifying of waves not connected to the RFID. * Leuvrey patent application No. 11 03476 of 14 11 2011 involves a passive UHF RFID connected to its basic antenna folded and extended in the clipping tabs (hammer laying) of the wafer, and a deviating screen only EM waves from wood, screen always placed between wood and RFID. This document does not approach the question either of a reflective screen of EM waves from RFID or of their return to a reader. * the patent application leuvrey FR No. 09 00112 of Jan. 9, 2009 and its European Patent Application No. 10150199.7 of 07.01.2010 / EP 2 207 130 Ai, provide a very good solution to the use of a RFID- UHF of wood integrated into a wood identification plate in essentially its distance from the RFID-UHF of the wood; this remote setting being necessary for its good reading with regard to the disturbances of its reading generated by the frequencies substantially similar to the raw wood material (not dried) far from the rough wood ridges. However, this document does not provide a solution for recovering the EM waves emitted by UHF RFID by means of reflector antenna not connected to UHF RFID. This document also does not provide an appropriate solution in the ergonomic issue of tools and means for packaging a set of pads with RFIF UHF support at a distance from the wood and their use with a portable store-distributor in the forest; indeed, the wafer with its RFID carrier support vertically is not suitable for vertical stack packaging platelets in conventional stores for the simple cause of space and volume impossibility; this classic store has a tubular shape opening only at the ends; however this store is necessary for the forester marking each logged bill for his identification and his traceability. This document mainly also provides the solution for remote UHF RFID and vertical wood by means of an "elastic memory" carrier carrying the RFID UHF; this UHF RFID support in its initial position horizontally rises in vertical and remote position of the wood by taking support in depth of the wood and not a support on the external surface of the wood; but said technique "support in-depth wood" remains difficult to implement when fixing the wood wafer, especially hardwoods (hardwoods, or even soft woods with tight growth or frozen on the surface); indeed, the extra thickness of the bracket of the wafer, resulting from its nominal thickness doubled by the thickness of the lifting support does not allow an absolute fixation adequate and well embedded in hardwoods; therefore the lifting function of the UHF RFID support for its setting at the right distance from the wood (out of negative effects of EM waves emanating from the wood) and necessary for its reading is not always fulfilled nor maintained perfectly.

Thus this document remains open to new solutions in a suitable optimal attachment of the wafer to wood and its proper ergonomic use of a suitable portable store. In these aforementioned documents, the involvement of an Active RFID is not discussed. For the correct understanding of the text, the vocabulary used in this document corresponds to the following definitions: * EM waves = electromagnetic waves emitted by conductive materials and propagating in defined EM wave frequencies. * RFID (Radio frequency identification) = composed of a chip connected to an antenna, and usually placed on an inlay (usually adhesive support) * RFID is PASSIVE, if it does not include a battery; by its antenna, it receives its energy from an external reader to which it transmits its information in the required frequencies, then exploited by a middleware. * RFID ACTIVE = includes a) an electronic card and its multiple computer functions of recording and exploitation and transmission of data, b) a chip with its antenna, c) a battery allowing it to have its own energy source for transmission of data when interrogated by a reader through any suitable network. ACTIVE RFID emits radio waves signaling its presence and can be read from a much greater distance than a PASSIVE RFID that does not have a clean battery; Active RFID remains in a sleep state until it receives a specific signal. active or passive RFID-UHF (Radio Frequency Identification-Ultra-High Frequency) transmits in frequencies between 850-960 MHz. * SHF RFID (Super High Frequency, Super High Frequency) ACTIVE transmits in frequencies between 3 and 30 GHz. * Semi-active RFIDs have a low capacity battery that only supplies the electronic part of the chip but is not used for signal transmission, and can only be interrogated at short range, such as passive RFIDs. * elastic memory = a resilient memory medium is a support that is retractable and resistant to the various shocks and returns each time to its basic position in its initial state of function; * RFID wafer = object of mainly flat shape having fastening elements introduced into the wood, and carrying an RFID; The body of the wafer incorporating the RFID UHF is generally made by plastic molding in a non-conductive thermoplastic material. * conductor = electrically conductive * reflective antenna = conductive antenna not connected to UHF RFID, returns EM waves; it is a mirror flat or concave shape and spherical or truncated spherical, placed vis-à-vis the RFID UHF and in situations at distances (d3 and d2) shifted from the latter; according to the laws of reflection, the mirror in a required position, receives EM waves of low energy from the UHF RFID and weakened because located in a zone of EM turbulence close and disturbed by EM waves of wood propagating also in the UHF frequencies. The reflective antenna has the function of capturing the EM waves of the UHF RFID to redirect them in amplified transmission to a reader; The concave and spherical shape of the reflector antenna has a so-called parabolic shape, and therefore returns concentrated UHF RFID waves concentrated in an EM wave beam to the reader. The reflecting antenna is placed in any position adapted to its function. The antenna may comprise several parabolic forms (concave and spherical) in shape variants, optimizing the reception-emission device of EM waves to the reader. * The waves of the raw wood (not dried, slaughtering costs) propagate in the same UHF frequency range (850 to 960 Mhz) and thus cause interference in an area (d) close to the wood, disturbing or even cancel the transmission of UHF RFID information to the reader. The zone (d) is called "reading distance" beyond which the RFID is read by a reader.

The present invention provides new technical solutions: in the question of the protection of the wafer (and therefore RFID) and its attachment to wood and in the optimization of its identification and traceability function during operations of wood flow from the forest to sawnwood and of their storage. . in the ergonomic question of the RFID wafer laying tools on ridges or sawn timber, and their improvements. . in the question of using identification means with active RFID (with battery), trees, ridges, processed wood.

The invention will be better understood through the drawings: FIG. 1 represents a plate with UHF RFID lateral support, viewed from above fixed on wood. FIG. 2 represents the section of a plate with UHF RFID lateral support according to FIG. 1, before being laid on the wood by means of a laying hammer.

FIG 3 shows the section of the UHF RFID support in a mounting variant on the wafer, before it is laid on the wood. FIG 4 shows the section of the UHF RFID support in another mounting variant on the wafer, before it is laid on the wood. FIG. 5 represents the section of a wafer fixed on wood, and showing its UHF RFID lateral support at the vertical and at a distance from the wood FIG. 6 represents the section of a stack of conventional wafers without UHF RFID support, and its introduction into the FIG. 7 is a conventional magazine showing the section of a UHF RFID side plate stack and its introduction into the modified magazine with a lateral opening for the passage of UHF RFID media. FIG. 8 represents the section of a plate comprising a flat UHF RFID, and a reflecting antenna not connected to the RFID and fixed to a clipping tab of the wafer. FIG 9 shows the section of a variant of the wafer with a reflector antenna not connected to the RFID, and placed inside a wafer having no clipping lugs. FIG 10 shows the section of a wafer with a concave reflective antenna. FIG. 11 represents the section of a wafer incorporating a UHF RFID of concave and spherical shape. FIG. 12 represents the section of a wafer incorporating a freely mobile UHF RFID in a partially spherical space cage. According to FIG 1/2/3/4/5, the wafer according to the invention has a support (6) carrying the RFID (7) new in the technique of lifting and holding in vertical position (5) (to 90 °) and at a distance (d) from the plane (12) of wood cutting in its fixation on wood, and also with possible compatibility of use in a portable store modified for this purpose. In this new version of the wafer type flat on wooden ridge and with a support (6) carrying a UHF RFID (7), the wafer is extended by a heel (4) on a selected side and plunging into an angle preferably 45 ° (13); the support (6) is located in 90 ° extension (5) of this heel (4). The heel assembly (4) and support (6) thus form a broken line in 2 planes; this arrangement makes it possible: 1) to fix the plate in the best conditions for raising and maintaining the UHF RFID at a distance (d) from the wood, 2) to stack the platelets in a cartridge and to package them in a portable magazine (51) modified for this purpose and comprising for this purpose a lateral opening (52). When fixing the plate (1) thus modified in the wood, by the simple effect of the heel (4) unfolding naturally by its contact held flat against the wood, the support (6) carrying the RFID (7) associated with the heel (4) thus constantly and permanently maintains its RFID (7) in the necessary reading position, ie at the distance (d) and in an angle at 900 this time of the plane (12) of wood cutting, thus allowing successive readings in the subsequent traceability of wood. According to FIG. 6, the portable conventional magazine (50) is a tube open at the top and closed on its long sides, forming a template corresponding to the dimensional dimensions of the overall shape of the conventional plate of generally rectangular shape, in which the package comes platelets stacked and previously held by a packaging wire, this wire removed once the pile of wafers introduced into the store; by its opening from the top of the store and according to a spring system pushing the plate upwards, and taken one by one, the hammer (8) grips the plate by clipping the tabs (3) of clipping the wafer for then put it by force of a strike on the wood (11), the hammer being released by the effect of declippage of the legs of the wafer once fixed and retained wood; However, the pads with elastic memory support and carrying a RFID "remote" (d) have a larger footprint than conventional wafers without this support (6) and therefore can not be housed or stacked correctly in the store ( 50) conventional or come out freely, if the supports (6) are already pre-positioned in the vertical position of the plane (12) of the wafer; this is the reason why the RFID plates are equipped with a device of the heel (4) carrying the support (6) with elastic memory in an angle (13) open 45 ° allowing their stack without friction by a lateral position. Thus the inclined support (6) at 45 ° of the plane (12) of the wafer before its attachment in the wood, therefore allows free entry and exit of the modified tube (51) without any deterioration; once the wafer is attached to the wood, which support (6) will have its position of UHF RFID function in a vertical position at 90 ° (5) of the plane (12) of the wood; In this new technical arrangement, the magazine (51) is therefore modified to a new version (51) comprising a lateral opening (52) allowing the passage and stacking-removal of each of the laterally extended plates of the supports (6) RFID. According to FIG. 5, the wood identification and traceability device, in a wafer-type version (1), comprises in its periphery a heel (4) plunging in a 45 ° angle and comprising at its end and in an angle at 90 ° a carrier (6) carrying a UHF RFID (7); this heel (4) takes the horizontal position by the simple lifting effect obtained by its support flat against the plane (12) of wood cutting (11); thus is also eliminated the previously mentioned problem having the disadvantages due to a 90 ° lifting of UHF RFID support by stress by "support in depth of wood". A crutch (16) added under the heel (4) reinforces its horizontal maintenance, compensating for hollow of the cutting plane (11) of the wood.

The wafer according to the invention, and in compatibility with these functions, is preferably produced by molding suitable thermoplastic materials, such as, for example, by multi-injection, over-molding; and or in the use of other materials such as wood or even metal. A compromise of associated materials may exist, depending on the hardness of the woods, materials hard enough for the fastening tabs to enter the wood, and for the support to have the constant quality of "elastic memory" The support (4-6) is integrated part of the wafer or optionally in the insert by gluing or clipping, or in a pivoting version of the support obtained and held by riveting (9) or by locking washer. The quality of "elastic memory" is important in keeping the remote UHF RFID and therefore its support (6) which always returns to an initial position and vertical facing the various shocks encountered. According to FIG 8, in the use of a wafer (1) without the support (4-6), the wafer (Ib) comprises a UHF RFID (7) flat in a position parallel to the plane (12) of the cutting of wood (11); UHF RFID has a position away from the wood that may vary depending on its location on, in the middle, or below the wafer and the thickness of the wafer. The ideal position of the RFID UHF being far from the wood, at the distance (d) required for its reading by the reader (63) out of the zone (zt) EM wave turbulence from the wood.

The distance "d" from the RFID UHF away from the wood, is the distance allowing 100% reading of the UHF RFID. In order to optimize the reading of the UHF RFID, the UHF RFID is already placed at a distance (d4) of "support" that can promote its reading, said distance (d4) being effective from 0.5mm and to consider that it already participates the principle of "remotely" UHF RFID wood in order to promote its reading; moreover, it should be considered that the main body and flat of a wafer with a thickness greater than 5mm is then exposed dangerously to the risk of destruction caused by the various shocks during logging and sawmill operations. It should be noted moreover that the distance (d) of reading is variable according to the diameters of the larger or smaller woods and therefore according to the volume and the turbulent power more or less large EM waves of the water contained in the raw wood; any UHF RFID board may therefore not be suitable in its function to be read by the reader, in a batch of wooden logs in a range of small to large diameters; to overcome this by a "distance" of a support (4-6) excessively too long not being desirable, this problem therefore requires new adapted solutions. Also, in a variant, in a thin wafer and containing in its inner body a UHF RFID, in order to optimize the reading of the UHF RFID and to overcome these disadvantages, according to FIG. 8, the UHF RFID is associated with a second antenna (60)). This second antenna (60) is reflective and conductive but not connected to the RFID (7), and has a function of faster recovery and reflection and amplification of the waves (61) EM of the RFID UHF in waves (61- b) optimized in their transmission to the reader (63); said reflecting antenna (60) being placed for this purpose in mirror on the overboard side (d3) of the UHF RFID (7) and in a position (d2) greater than the UHF RFID, positions (d2) and (d3) as indicated in FIG. 9. In this device the UHF RFID (7) placed in a position first exponent to the EM waves of the wood, the reflecting antenna (60) is always located between the internal antenna of the RFID UHF and the reader, like a relay. The electrically conductive and unconnected reflective antenna (60) can be located mainly without much bulk and durably for its required function to a tab (3) for clipping the wafer in extension thereof, or in another adapted or modified place for this purpose the wafer.

This reflective antenna preferably of flat and concave shape and of small bulk is preferably made in a conductive material such as for example based on carbon, and elastic memory to overcome any possible shocks.

This device thus brings a new solution, performing the transmission of information to the reader, on production lines wood preparation (cubage, debarking, cutting ridges ...) highly mechanized and high speed (120m / min and +) in modern sawmills and highly productive and competitive. Manage according to the invention the complete line of log logging from the tree to its transformation, with one and the same type of UHF RFID plate adapted to all logs of all volumes, allows complete management , specify and simplify supply contracts between forest management partners (private or public) and sawmills, as well as all intermediate partners in logging, logging and timber transport operations. In a version of massive shape (FIG 9) of the plate (1-b) in a band application for installation by mechanical harvesters and therefore a very robust plate to withstand shocks during their installation by mechanized striking, the plate (1b) does not have lugs (3) for fixing on a hammer (8) for laying; the body of the wafer having a massive thickness comprises in its interior the complete device of the UHF RFID associated with the amplifying antenna (60), the amplifying antenna optionally overflowing (60-b) of the general line of the wafer, out of the strike zone of a mechanized laying striker. In the case of a thin wafer (1b) comprising a UHF RFID on its upper face, or its lower face, or in its middle, the UHF RFID is always located in the zone (zt) of turbulence. According to FIG 10, its reading is then reinforced is associated with another 2nd antenna (19), type reflective antenna concave shape and spherical or truncated spherical This second antenna (19) reflective and conductive but not connected to the RFID (7) ), and has a function of recovery and reflection and amplification of the waves (61) EM of the UHF RFID for their axial transmission (20) to the reader (63). This reflecting antenna receives and recovers UHF RFID (61) EM waves diverted by the wood and in erratic movements in the turbulence zone (zt); this antenna (19) unconnected and by its parabolic shape and therefore by its device for capturing and returning concentrated waves by axial beam, more easily retrieves EM waves (61) and thus transmits directly without constraints the information of the RFID UHF to the reader (63). the reader may be associated with several coupled readers, or with one or more mobile pendulum-type readers or billleaders and therefore with its UHF RFID and thus placed in search of an ideal position for reception of the beam waves conveyed by the reflective antenna. In this device, the parabolic antenna (19) has a suitable housing and in the closest position to the UHF RFID. The aforementioned reflector antennas are made of conductive metal such as aluminum, or molded in a conductive thermoplastic such as carbon-based; they have the shapes, dimensions, orientations, positions, according to the tests and calculation adequate for their proper functioning. According to FIG. 11, in a compact and synthetic version of the device of a UHF RFID plate (1e), it is the UHF RFID which itself has a reflective form, preferably parabolic (concave and spherical); for this purpose, the wafer preferably has a circular adapted shape. The invention brings here another device reinforcing and optimizing the reading of the RFID UHF by the reader, using the energy caused by the more or less severe shaking of the wooden logs conveyed on the mechanized conveyors.

In order to use this uncontrolled vibratory and random energy, another device optimizes the reading of UHF RFID by the reader: these wood log jolts in motion, transmitted and even amplified to the RFID UHF of the wafer attached to the ridge of wood, promote and optimize the reading of RFID UHF; the reader thus more easily picks up EM waves from UHF RFID placed in the best transmission axis; this optimal and ideal reading is then possible and obtained by the shaky positions (14) (definition of the word "trembling" here = floating, unstable, random, mobile and omni-directional) of the carrier (6) carrying the UHF RFID. For this purpose, this quality "trembling" is obtained by 2 new technical means: a) the carrier (6) carrying the RFID UHF, and already "elastic memory", also has this other and second quality: that of being also "trembling" b) in an application variant according to FIG 12, the RFID UHF (7) is housed in unstable equilibrium in a closed housing (cage) and moves like a ball in its cage (80) at the slightest movement; for this purpose, the UHF RFID (81) by its adapted spherical or partially spherical shape, placed or not on a support (82) of the same spherical or partially spherical adapted shape, is thus in unstable equilibrium, mobile and free from any shaking movements in the cage (80) of the same shape and in the volume adapted to its free and good mobility; the size of UHF RFID can also be reduced due to its optimized readability. The cage (80), still in its function of freely moving the UHF RFID it contains, optionally has various dimensions in all suitable forms such as a tube with spherical internal walls allowing UHF RFID free mobility. The medium (4-6) can evolve to receive other types of RFID such as for example RFID SHF or other means of identification in analog uses and advantages. The plate, in other versions, is equipped with an RFID ACTIVE meeting the modern needs of wood and forest management. For this purpose, another variant of the wood traceability plate, without its support (4-6), the active or semi-active UHF RFID, is integrated in a capsule with the electronic card and its battery aligned in the same plane. end-to-end, for the purpose of an ultra-flat capsule for its good integration into the central and horizontal body of the plate; said RFID may optionally be directly reincarnated in the body of the wafer, said RFID operating optionally in other frequency ranges than the UHF, such as the frequency range SHF Said ultra-flat UHF RFID capsule may have multiple uses , like that of being placed in a vertical housing adapted in a handling pallet die, said housing trapping it permanently or optionally arranged to allow its recovery. This arrangement is an advantage in the nailing of the pallets: the area occupied by the capsule being small and thus having little risk of being exposed to deterioration by the assembly nails of the wafer. In another optional and miniaturized version, and in an application to trees and lure function, the active RFID capsule has any shape and aspect miniaturized and adapted to its application, preferably form and appearance of a sheet or a , or a forest animal, or any element of the managed environment; This arrangement makes it possible to manage a large distance and quickly in many controls and surveys, already mentioned in the benefits of using a UHF ACTIVE RFID capsule. The shape of the lure is therefore technical by its unrecognizable traceability function except by lure managers; in order to identify the most diverse predations such as, for example, the trafficking and theft of timber, wild deforestation, the identification of wood logs lost at sea and the cause of serious accidents for all boats, to ensure the phytosanitary forests, the most diverse movements ... RFID Active can be powered by a photovoltaic device for a very long autonomous period of operation. The invention applies to all applications having analogies of functions and means of traceability.

Claims (4)

REVENDICATIONS1. Device for identification and traceability of wood with UHF RFID, in a wafer-type version, characterized in that the wafer (1) comprises on one side a heel (4) plunging in an angle preferably at 45 ° and carrying a support (6) UHF RFID (7), said heel (4) when it is fixed in the wood (11) to raise it and stay in a horizontal position by the simple effect of its support flat against the plane (12) ) of the wood cutting (14) during the final fixing of the wood wafer (11), said heel optionally comprising on its wood support face a stand (16). 2. A device for identifying and traceability of wood, according to claim R1, characterized in that the heel assembly (4) and support (6) is integrated part of the wafer or optionally an insert by gluing or clipping, or in a pivoting version held by riveting (9) or lock washer, said support (6) having a shaky quality (14) caused by the shaking of the wooden log moving on a mechanized feed line. 3. Identification and traceability device for wood, according to claims R1 and R2, characterized in that the wafer portable magazine (51) is equipped with a lateral opening (52) for stacking the UHF RFID plates and their removal. 4. Identification device and traceability of the woods, in another version of a wafer (1b) without the support (6) or the heel (4), and comprising in its interior a UHF RFID in a position parallel to the plane (12) of the wood cutting, characterized in that the wafer (1b) is equipped with an antenna (60) reflective and conductive but not connected to the RFID, said antenna (60) reflecting having a function of recovery and reflection and amplification of the EM waves of the RFID 25 for transmission to the reader (63), said reflecting antenna (60) placed in overhang (d3) of the RFID UHF and in position (d2) greater than the RFID UHF and distance (d) EM waves of the wood, and preferably fixed to a tab (3) of clipping the wafer. R5 identification device and traceability of wood, according to claim R4, and 30 in a massive version (1c) of a wafer (1b), and having no lugs (3) for fixing on a hammer (8) laying , characterized in that the wafer (1c) comprises in its interior the complete UHF RFID device associated with a reflecting antenna, said reflecting antenna (60b) optionally overflowing from the upper plane of the wafer. R6 device for identification and traceability of wood, according to claims R4 and R5, characterized in that the antenna is reflective (19) concave shape, said antenna (19) reflective unconnected and oriented having function to recover waves (61) EM of the RFID-UHF issued from the zone (d) of turbulent waves (65) EM of the wood, in order to transmit them concentrated and amplified directly to the reader (63) R7 Identification and traceability device , according to any one of claims 1, 2, 4, 5, 6, characterized in that the wafer incorporates a UHF RFID parabolic form, said wafer preferably having a circular shape. R8 Device for identification and traceability of wood, in any other version, according to claim R7, characterized in that the UHF RFID (81) of spherical or partially spherical shape, with or without a support (82) adapted, is integrated into free position in a closed cage (80) of the wafer (1e) and movable in trembling movements caused by the shaking of the wood ridge in motion on mechanized line, said cage (80) optionally having a tube shape. R9 Identification and traceability device for wood, in another version using a capsule incorporating an active RFID, characterized in that the RFID capsule of miniaturized dimension is a decoy having any forms and aspects suitable for its application and preferably the shape and shape. appearance of a specific leaf of a tree or an animal of the forest, the RFID battery being preferentially photo-voltaic energy.