This invention relates generally to containers for consumable substances, and more particularly to replaceable containers having integral electronic memory devices.
Many types of equipment, apparatus, or devices require a supply of a consumable substance. The substance may be needed for the equipment to operate properly, such as a fuel or lubricant; or the substance may be utilized by the equipment as a component or ingredient in forming a final product or output. Consumable substances may be provided in replaceable containers that are changed when the substance is depleted.
Printers with user-replaceable consumables (and related devices, such as facsimile machines and copiers) are well known in the art. For example, inkjet printers typically utilize replaceable ink supplies, either integrated with a printhead or in the form of separate supplies. In laser printers, toner is typically supplied in a replaceable cartridge, which may include the photosensitive drum on which images are formed.
It is increasingly common for containers of consumable substances to have integral electronic memory devices, which may be used for a variety of purposes by the utilizing equipment. The memory device may be used as a “keying” feature to differentiate between different substances, may contain calibration information, or may be used to indicate a status condition of the consumable, such as the substance level within the container. The memory devices may also be used for many other purposes, such as enabling specialized features of the utilizing device or providing other value to the equipment user. While earlier memory devices typically had electrical contacts that had to connect to mating contacts in the utilizing equipment, newer devices are often wireless and rely on radio frequency (RF) communication.
Replaceable printer consumables, such as inkjet cartridges, tend to be both relatively small and moderately costly to replace. The small size and relatively high cost can make the consumables tempting targets for theft, which tends to discourage the placement of printers in public or semi-public places, such as libraries, schools, restaurants, coffee shops, and hotels. The cartridges in an unattended printer are prone to be appropriated for use in another printer, such as in home computer system.
Even in more private and secure settings, such as office environments and homes, printer consumables have a tendency to “disappear”, since it can be more convenient to “borrow” a consumable from an unattended printer than to acquire a replacement consumable through appropriate channels.
Misappropriation of a cartridge of a consumable substance can result in expensive “downtime” of the utilizing equipment; replacing the cartridge can add significant additional costs, as well as being an inconvenience to the user.
Embodiments of the present invention include cartridges of consumable substances having integral electronic memory devices that are configured to be programmed by the user in a manner that essentially renders the cartridges usable only on specific individual units of utilizing equipment, thus reducing the potential for theft or misappropriation. Embodiments also include utilizing equipment configured to interact with such consumables, and methods.
Other aspects and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, illustrating by way of example the principles of the invention.
FIGS. 4(a) and 4(b) schematically illustrate an exemplary embodiment of the invention;
FIGS. 5(a) and 5(b) schematically illustrate a further exemplary embodiment of the invention;
Embodiments of the invention are described with respect to an exemplary inkjet printing system and printing consumable; however, the invention is not limited to the exemplary inkjet system and consumable, but may also be utilized in other systems having replaceable consumables.
The integrated circuit memory 242 of the exemplary embodiment is typically a serial input/output memory, as are well known in the art. Such memories may have an asynchronous serial data interface, requiring only a single electrical data lead, plus a case ground return, for data input and output. Data input and output from the one wire memory is accomplished via a protocol wherin various length pulses are employed which evidence the beginning of a read/write action. Those pulses are followed by bit-by-bit transfers, wherein ones and zeros are manifest by different pulse lengths. Alternatively, the memories may have a synchronous serial interface including a clock line. Other serial input/output memories may also be employed for the present invention, as well as other, non-serial memory configurations.
U.S. Pat. No. 5,699,091 “Replaceable Part With Integral Memory For Usage, Calibration And Other Data” assigned to the assignee of the present invention, further describes the use and operation of such a memory device. As described in the U.S. Pat. No. 5,699,091 , the memory device may be utilized to allow a printer to access replaceable part parameters to insure high print quality. In addition to allowing the printer to optimize print quality, the memory may be used to prevent inadvertent damage to the printer resulting from improper operation, such as operating after the supply of ink is exhausted or operating with the wrong or non-compatible printer components.
When installed by the consumer, the consumable item 112′ with the memory component 114′ is mated to a receiving station 210, such as on the carriage of an inkjet printer, which includes mating electrical contacts 212. The consumable item and receiving station may include other interconnections, such as other electrical connections or fluid connections. The receiving station in turn is in data communication with a controller 220, which allows reading of the data in the memory component, such as by the printer firmware.
Typical memory components 114′ and 114″ of
FIGS. 4(a)/4(b) and 5(a)/5(b) schematically illustrate two exemplary embodiments of the invention. In general terms, embodiments of the invention involve modifying non-volatile data fields in the integral memory components of consumable cartridges (and, in some embodiments, data fields in the utilizing device memory) such that the consumable cartridges become compatible with only a small subset of utilizing devices, thereby substantially reducing their potential value to a thief or unauthorized borrower.
In the illustrated exemplary embodiments, effective application of the invention is premised on the assumption that substantially all of the utilizing devices that might potentially utilize a cartridge are configured to “reject” non-compatible cartridges, as discussed below.
Non-volatile TD data field 440 includes a sufficient number of data bits such that a fairly large number of different “keycodes” can be accommodated, as explained below. In the embodiment of FIGS. 4(a)/4(b), a seven-bit field allows for an initial state and 127 different keycodes. If the cartridge has not previously been configured for theft deterrence (for example, if the cartridge is new), the TD data field contains a code indicating that the cartridge is not configured for theft deterrence, such as, for example, “0000000”.
Upon installation of the cartridge (or, alternatively, a decision by the user to configure a previously-installed cartridge for theft deterrence), the utilizing device 400 generates a keycode and writes the keycode to the TD data field 440 of the cartridge 412. The keycode is selected to differentiate the specific utilizing device from other similar utilizing devices; for example, a least-significant portion of the device serial number may be used, as indicated in
The keycode may also be generated in other some more complex fashion from data either in the utilizing device's memory or in some manner accessible to the utilizing device, or may be provided from an external source, such as from a connected computer or network, so long as the keycode sufficiently distinguishes the specific device, and can later be recreated or retrieved by the device to “validate” a cartridge.
The effectiveness of theft deterrence is predicated on the assumption that substantially all similar utilizing devices will not accept a TD encoded cartridge from another device. Before permitting use of a cartridge, a utilizing device will validate the cartridge to verify that it does not “belong” to another device that has encoded the cartridge for theft deterrence. If a utilizing device detects a cartridge with a keycode other than the “correct” code, the utilizing device will in some manner reject the cartridge, such as, for example, by issuing prompts to the user to replace the cartridge or by not operating with the cartridge installed.
Assuming a seven-bit TD data field, a TD-enabled cartridge removed from one utilizing device may then has as little as a one-in-127 probability of functioning in another utilizing device, essentially eliminating the incentive for theft.
FIGS. 5(a)/5(b) illustrate a further exemplary embodiment of the invention. This embodiment seeks to minimize the amount of additional memory needed in the cartridge memory device to implement theft deterrence, and assumes that each cartridge is programmed with a unique serial number at the time of manufacture (or some other data, such as date and time codes, that are likely to distinguish the cartridge from other similar cartridges).
As shown in
Other embodiments will be apparent to those skilled in the art, having in common the modification of a data field or data flag within the memory component of the cartridge, together with data stored either on the consumable or within the utilizing device to identify the cartridge as “belonging” to the utilizing device.
In some embodiments, the use of the theft deterrence feature may be made optional, such that new cartridges are not TD encoded. If the user or owner of the utilizing device wishes to make use of the theft deterrence feature, the theft deterrence mode of the device will at some point have been enabled 610, such as by the user or owner having selected the option from a menu of a driver, such as a printer driver, or otherwise having enabled the mode. In some embodiments, the user or owner may have the option 612 of automatically TD encoding all cartridges installed in the utilizing device, or manually selecting which cartridges to encode. If automatic, the utilizing device will proceed to encode the cartridge 630, as discussed below; if manual, the user or operator will be prompted 620 to decide 622 whether the cartridge should be TD encoded. The utilizing device may then resume normal operation 640.
If the theft deterrence feature is optional on a utilizing device, some form of protection against the feature being disabled may be desirable, such as password protection of the software application that sets the device mode. Permitting only authorized persons to change the mode would secure the device against surreptitious disablement, allowing the owner to place the device in a public setting without having to be concerned about whether the consumable items are being properly encoded.
Although
Many variations of the above exemplary embodiments are possible without departing from the basic concepts of the invention. For example, some steps indicated as being done by utilizing device could similarly be done externally, such as by a print driver resident on a computer; and steps may be performed in a different order or at different times than indicated above.
In some settings, where a small community of utilizing devices exists (such as, for example, inkjet printers in an office or a public library), it may be desirable to encode all the consumable items such that they may be freely swapped between “inside” devices, while still having theft deterrence with respect to use in “outside” devices. Embodiments of the invention may be extended to such situations by, for example, providing mechanisms to securely set the keycodes of multiple computers (such as by an authorized user reprogramming the non-volatile memory of the utilizing devices to contain a specific keycode common to all the utilizing devices of the community), or by maintaining a list of consumable identifying codes on computer network accessible to all the utilizing devices, with appropriate safeguards to prevent unauthorized discovery or use, as known in the art.
A potential drawback to theft deterrence is the situation where a utilizing device is somehow reinitialized, and in some manner “forgets” its own identity. For example, an inkjet printer may on very rare occasions encounter a series of events causing the internal non-volatile memory to reset, which could mean the loss of either the distinguishing information utilized to generate a keycode, or the list of approved cartridges. In these rare occurrences it is contemplated that the utilizing device will default to a mode of accepting all cartridges, whether or not the cartridges have been encoded.
The above is a detailed description of particular embodiments of the invention. It is recognized that departures from the disclosed embodiments may be within the scope of this invention and that obvious modifications will occur to a person skilled in the art. It is the intent of the applicant that the invention include alternative implementations known in the art that perform the same functions as those disclosed. This specification should not be construed to unduly narrow the full scope of protection to which the invention is entitled.
The corresponding structures, materials, acts, and equivalents of all means or step plus function elements in the claims below are intended to include any structure, material, or acts for performing the functions in combination with other claimed elements as specifically claimed.
This application is related to the copending U.S. application of Jefferson P. Ward, et. al. entitled “CONSUMABLE CARTRIDGE WITH THEFT DETERRENCE FEATURES”, Ser. No. ______, filed on the same date as the present application.