KR101413722B1 - Smart toner security system - Google Patents

Abstract

Provided is a smart toner security system for protecting a refined toner from a duplicated toner by enabling a printer and the toner to exchange an appointed security algorithm from each other in an authentication system for a printer toner and the printer including the printer toner with a toner security algorithm and the printer including a printer security algorithm; for using a recycled toner in which the quality is managed and the refined toner by supporting different technologies by the quality of the toner when the toner is the recycled toner based on the security algorithm of the printer and the printer toner; and for preventing the printer and the toner security algorithm from being hacked.

Description

{SMART TONER SECURITY SYSTEM}

The present invention relates to a security / authentication system for ensuring the use of a genuine and high-quality regenerated toner as an authentication system for a printer and a printer toner.

In general, the manufacturer of a printer prohibits the recycling of toner cartridges, and uses only genuine cartridges. Genuine cartridges are supplied directly by the makers of laser printers, and all parts are new. Since the printing method used differs for each company, the shape of the toner cartridge is different from each other, and it is required to use a toner cartridge suitable for the printing method used by the printer manufacturer.

On the other hand, if all the ink in the cartridge is exhausted, the cartridge must be discarded and a new one must be purchased, but the purchase cost of the genuine cartridge is not cheap at all, which usually causes a cost burden to the consumer.

Accordingly, efforts have been actively made to supply ink for refilling the cartridge cartridge which has been refilled with ink again in the cartridge toner so as to be able to be reused without discarding the cartridge which has exhausted the ink in the innermost cartridge, or ink for refilling the cartridge toner which has exhausted the ink And the manufacturing area of the recycled cartridge has already been expanded at a small-scale ink shop.

Recycling cartridges using ink cartridges that have run out of ink are collected by collecting waste cartridges and reproducing them in the form of final products like toner cartridges in a toner recycling company.

These reconditioned cartridges have the advantage of not significantly lowering the quality of printing compared to the original cartridges and have a great advantage in that they can be used at a much lower cost than the purchase cost of the original cartridges.

On the other hand, among the companies that supply the above-described regenerated toner cartridges, there is a company that supplies regenerated toners that have been certified with quality, but there are many companies that supply regenerated toners that are not certified as quality.

In the case of using the above-described recycled toner, in the case of recycled toners not recognized by the printer manufacturer, not only can the printer apparatus be adversely affected, but also the quality of the toner itself is not verified, Can occur.

Accordingly, the printer manufacturer is required to use a program for activating the printer and the toner, for the purpose of making the printer use only genuine toner. The activation program exchanges encryption information between the printer host and the genuine toner by a predetermined security algorithm to protect the genuine toner from the copy. However, when the security algorithm is hacked for the time required for the data communication using the printer, the toner and the security algorithm, there arises a problem that the security algorithm designed for using the authenticated toner becomes useless.

SUMMARY OF THE INVENTION The present invention provides a smart toner security system using security algorithms that can use genuine toner and regenerated toner with quality control, By simplifying the communication system, hacking of this security algorithm can be prevented.

The authentication system for the printer and the printer toner according to the first embodiment of the present invention is a printer having a plurality of printer security algorithms,

And a printer toner having a plurality of toner security algorithms. The printer includes a printer security information transmitting and receiving unit configured to transmit security information encrypted with the toner using one of a plurality of printer security algorithms and to receive information from the toner. The printer toner includes a toner security information transmitting / receiving unit, an encryption information analyzing unit, and a central processing unit (CPU) connected to each of them. The toner security information transmitting and receiving unit included in the printer toner is configured to receive the encrypted security information from the printer security information transmitting and receiving unit and transmit the encrypted security information to the encryption information analyzing unit without going through the calculation process of the central processing unit. The encryption information analyzing unit included in the printer toner decrypts the received encrypted security information using one of the plurality of toner security algorithms and transmits the decrypted security information to the toner security information transmitting and receiving unit . The printer further includes a control unit connected to the printer security information transmitting and receiving unit, and the control unit is configured to determine whether the decrypted security information received from the toner security information transmitting and receiving unit in the printer encryption information transmitting and receiving unit corresponds to the encrypted security information do.

An authentication system for a printer and a printer toner according to a second embodiment of the present invention includes a printer having a printer security algorithm and a printer toner having a toner security algorithm. The printer includes a printer security information transmitting and receiving unit configured to transmit security information encrypted with a toner using a printer security algorithm and to receive information from the toner, and the printer toner includes a toner security information transmitting and receiving unit, And a central processing unit (CPU) connected to each of them. The toner security information transmitting and receiving unit of the toner receiving unit receives the encrypted security information from the printer security information transmitting and receiving unit and transmits the encrypted security information to the encryption information analyzing unit without going through the calculation process of the central processing unit. The encryption information analyzing unit is configured to decrypt the received encrypted security information using the toner security algorithm, and transmit the decrypted security information to the toner security information transmission / reception unit without going through an operation process of the central processing unit. The printer further includes a control unit connected to the printer security information transmitting and receiving unit, and the control unit is configured to determine whether the decrypted security information received from the toner security information transmitting and receiving unit in the printer encryption information transmitting and receiving unit corresponds to the encrypted security information And is configured to support the authentication level and the printer technology level based on the result of judging whether or not the encrypted information corresponds to each other and on whether or not the printer toner is manufactured and the printer toner is authenticated.

According to the first embodiment of the present invention, in order to allow the user to use the genuine printer toner, encryption information is exchanged between the printer host and the toner by a predetermined security algorithm, so that the genuine toner can be protected from the copy , A security system for protecting genuine toner can be further strengthened by using a printer toner having a plurality of printer security algorithms and a plurality of toner security algorithms. Further, by simplifying the communication method between the toner security information transmitting and receiving unit, the encryption information analyzing unit, and the central processing unit (CPU) included in the printer toner, it is possible to prevent the printer and the toner security algorithm from being hacked. On the other hand, according to the second embodiment of the present invention, even in the case of the regenerated toner which is not genuine in the security algorithm of the printer and the printer toner, it is configured to support a different level of technology depending on the quality of the toner, So that the genuine toner and the regenerating toner business can be coexistent. In the second embodiment, as in the first embodiment, the communication method between the toner security information transmitting / receiving unit, the encryption information analyzing unit, and the central processing unit (CPU) included in the printer toner is simplified, It is possible to prevent the printer and toner security algorithms that enable the toner market to be hacked.

1 shows an authentication system for a printer and a printer toner according to the prior art.
2 shows an authentication system for a printer and a printer toner according to a first embodiment of the present invention.
3 shows an authentication system for a printer and a printer toner according to a second embodiment of the present invention.
Fig. 4 shows a flow of data in a printer and a printer toner authentication system according to the related art.
Fig. 5 shows the flow of data in the printer and printer toner authentication system according to the embodiment of the present invention disclosed in Figs. 2 and 3. Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 shows an authentication system for a printer and a printer toner according to the prior art.

A laser or ink jet type printer system as shown in Fig. 1 has a printer 120 and a toner 110 as constituent elements. An image generated by a computer is received by the host of the printer, and the corresponding image is output by controlling the toner. What is shown inside the toner 110 means components included in the processor actually included in the toner, but is shown as a component of the toner 110 for the sake of simplicity. The toner 110 includes a memory 101 that includes a toner security algorithm and / or a secret key value, and the printer 120 includes a memory 105 that includes a printer security algorithm and / or a secret key value . Although the printer 120 is shown connected to the server computer 130, the server computer 130 is not limited thereto, and may be replaced with a personal computer, a laptop, a PDA, a portable device, or the like. The printer company transmits and receives the encrypted information to each other by an algorithm that is promised between the printer and the toner for the purpose of using the toner of the original by the user and confirms whether or not the encryption information corresponds to each other to confirm that it is genuine toner Have procedures. First, the encrypted data is transmitted from the communication engine 107 of the printer to the communication engine 103 of the toner, which is received by the CPU 104 of the toner and transmitted to the cryptographic hardware engine 102. The encryption hardware engine 102 decrypts the received encrypted data and sends the decrypted data back to the CPU 104. The CPU 104 sends the data to the communication engine 103 of the toner. The communication engine 103 of the toner is again subjected to a series of processes of transmitting the decrypted data to the communication engine 107 of the printer host. However, this complicated data transmission scheme takes a lot of time and allows hacking of security algorithms and secret keys during data transmission. Hereinafter, the present invention will be described in order to simplify the data communication system so as not to be hacked by the copy manufacturer during such data transmission time, and to improve the printer and toner security algorithms of the prior art, An authentication system for a printer and a printer toner will be described in detail.

2 shows an authentication system for a printer and a printer toner according to a first embodiment of the present invention.

The authentication system for the printer and the printer toner according to the embodiment of the present invention disclosed in FIG. 2 is intended to simplify the communication system to solve the problems of the existing authentication system disclosed in FIG. For the toner security system disclosed in Figures 1 and 2, a toner is embedded in the processor, and the same as described above with respect to Figure 1, from the communication engine 207 of the printer to the communication engine 203 of the toner chip, The decrypted data is transmitted to the communication engine 207 of the printer again after decrypting the encrypted data in the chip of the toner. However, in the conventional toner security system as disclosed in Fig. 1, communication (communication between the CPU and the communication engine, communication between the CPU and the cryptographic hardware engine) that is not directly related to the data encryption analysis is frequently generated, Since the communication time occupies most of the data communication time inside the chip of the toner, a communication element which is not necessary for data encryption analysis during the data communication time of the toner chip (for example, a microcontroller unit) is omitted If the data communication time is shortened, the risk of hacking the security algorithm of the toner can be remarkably reduced.

Examples of the processor used in the toner according to the present invention include 6805, 68HC11, 68HC16, and 68332 of Motorola, such as Intel 8051 (MCS-51 series), 8096 (MCS-96 series), 80960 Microcontroller units (MCU) such as Zigon's Z8, Z88C00 (super8), Z89 series, etc., but these are merely illustrative and are not intended to be limited to a number of commonly used It may be one of the possible microcontroller units. In general, the MCU used for security includes functions of CPU, RAM, ROM, I / O, timer, and interrupt controller in one chip. In MCU, CPU controls the recognition, (Arithmetic Logic Unit) for performing arithmetic operations, a register for temporarily storing data, and a control unit for performing an appropriate operation according to the instruction. In the conventional MCU to which the security system is applied, most of the time related to the recognition, decryption, execution, and arithmetic processing of instructions in the CPU takes place for the decryption of encrypted data and data communication. On the other hand, since an expensive MCU is required to shorten the data communication time inside the MCU while implementing a high-level security system for preventing the hacking of the security algorithm, the application of the conventional MCU to the toner is somewhat There was difficulty. However, in the embodiment of the present invention shown in FIG. 2, it is possible to apply a security system that minimizes the risk of hacking while using a relatively inexpensive MCU.

The components of the toner 210 are components of the processor included in the actual toner as well as the toner 110 of FIG. The toner 210 includes a memory 201 that includes a plurality of toner security algorithms and / or secret key values, and the printer 220 includes a memory 205 that includes a plurality of printer security algorithms and / .

The printer 220 includes a communication engine 207 configured to transmit encryption information to the toner 210 using one of a plurality of printer security algorithms. The communication engine 207 of the printer transmits encrypted security information to the communication engine 203 of the toner. The communication engine 203 of the toner is configured to receive the encrypted security information and transmit it to the cryptographic hardware engine 202 without going through the calculation process of the CPU 204. [ Also, the cryptographic hardware engine 202 included in the printer toner decrypts the received encrypted security information using one of the plurality of toner security algorithms, and transmits the decrypted security information to the communication engine (203). The printer includes a control unit 209 connected to the communication engine 207. The control unit 209 controls the communication engine 207 such that the decrypted security information received from the communication engine 203 of the toner in the communication engine 207 is encrypted Information corresponding to the information. In the data communication according to the embodiment shown in Fig. 2, the security algorithm is implemented in hardware by the cryptographic hardware engine 202 rather than being implemented in software through the calculation process by the CPU 204, The cryptographic hardware engine 202 is configured to decrypt the cryptographic hardware engine 202 and send it back to the communication engine 202 directly because it does not require a separate RAM space to perform the cryptographic operation, The time required can be greatly shortened. That is, by using such a method, the time required for data transmission and feedback is shortened to 1/10 or less in comparison with the conventional technique. Accordingly, since the minimum data analysis time required for analyzing the security algorithm and the secret key is not granted, the security system that reduces the risk of hacking can be applied to protect the original toner technically and commercially.

At this time, a plurality of printer security algorithms P1, P2, ..., Pn (hereinafter referred to as Px) stored in the memory 205 of the printer host and a plurality of toner security algorithms T1 , T2, ..., Tn (hereinafter referred to as Tx) may each operate in pairs, and each of the plurality of printer security algorithms may correspond to at least one toner security algorithm.

On the other hand, in an authentication system for a printer and a printer toner as disclosed in Fig. 2, a method of changing the algorithm of the IC in the toner module by periodically or non-periodically updating the printer host may be considered. Using this method, the risk of hacking can be further reduced by changing to an updated algorithm to perform activation. Thus, in this way, the original toner can be technically and commercially protected.

Some or all of the Tx algorithm may be stored in the initial fabrication process, and some or all of the Px algorithm may be stored in the initial fabrication process and updated periodically or aperiodically via external storage and the Internet . It is possible to technically and commercially protect the genuine toner by using a method of authenticating whether or not the toner is a genuine article by using Px and Tx changed periodically or non-periodically.

Fig. 3 shows an authentication system for a printer and a printer toner according to a second embodiment of the present invention.

In the case of the printer and the printer toner authentication system according to the second embodiment of the present invention disclosed in Fig. 3, the toner 310 is the same as the toner disclosed in Fig. 2 in that it includes the memory 301 and the communication engine 303 .

The printer 320 is the same as the printer disclosed in Fig. 2 in that the printer 320 includes a memory 307 and a communication engine 309 and has a control unit 311 connected to the communication engine 309 of the printer.

The data communication between the communication engine 309 of the printer 320, the communication engine 303 of the toner 310 and the cryptographic hardware engine 302 included in the toner is also performed in the system according to the first embodiment shown in Fig. 2 The same operation is performed without going through the calculation process of the CPU 304.

At this time, a plurality of printer security algorithms P1, P2, ..., Pn (hereinafter referred to as Px) stored in the memory 307 of the printer host and a plurality of toner security algorithms T1 , T2, ..., Tn (hereinafter referred to as Tx) may each operate in pairs, and each of the plurality of printer security algorithms may correspond to at least one toner security algorithm.

On the other hand, when the printer security algorithm Px and the toner security algorithm Tx of the printer toner are paired, the control unit 311 determines whether the printer security algorithm Px and the toner security algorithm Tx And to apply different printer security algorithms based on the information of the stored toner.

For example, where genuine toner is used, when a toner of an authentic clone (or regeneration) product is used, a different printer security algorithm or toner security Algorithm can be applied. Also, instead of using different algorithms, or using different algorithms, each different cryptographic information may be used.

In one embodiment, the toner 310 may further include a toner information storage unit 305 in which information on the manner of manufacturing the toner is stored. The toner information storage unit 305 is configured to transmit the toner information to the communication engine 309 of the printer. The control unit 311 of the printer is configured to update the printer security algorithm based on the toner information stored in the toner information storage unit 305. [

The control unit 311 of the printer 320 may also control the use of the toner based on the result of determining whether or not the encryption information corresponds to each other and based on the updated printer security algorithm. For example, when the toner corresponds to a genuine product, it is determined that the toner satisfies the first authentication level, and the technology is supported so that the printer can operate to normally use the toner. If the toner does not correspond to the genuine article, it is judged whether or not it corresponds to the second authentication level based on the information of the toner information storing section in which the information on the toner manufacturing method is stored and whether or not the toner is authenticated for use in the printer 320 . If it is authenticated for use with the printer 320, it is determined that it corresponds to the second authentication level, and the second technical level is supported. If there is no information that is authenticated to be used in the printer 320, it is determined that it corresponds to the third authentication level and the third technical level is supported.

By using such a method, it is possible to protect the original toner toner technically and commercially while preventing the hacking of the security algorithm of the genuine toner, thereby protecting the regenerated toner market of good products, So that the regenerated toner supplier of the good product can coexist.

Meanwhile, the embodiment according to FIG. 3 capable of performing quality control and business management through a security algorithm capable of providing a multi-level technology level can be utilized in a system having a single algorithm. When a system having a single algorithm is used, it can be implemented by using a security algorithm to transmit and receive different pieces of encryption information for different technology levels.

Fig. 4 shows the flow of data in the printer and printer toner authentication system according to the prior art disclosed in Fig. The toner communication engine 403, the toner encryption hardware (H / W) engine 407 and the communication engine 403 included in the printer communication engine 401 included in the printer and the printer toner included in the printer, And the central processing unit (CPU) 405 of the toner connected to the encrypted H / W engine 407 are omitted. First, the printer communication engine 401 included in the printer transmits the encrypted security information to the toner communication engine 403, and the toner communication engine 403 transmits the encrypted security information to the CPU 405 of the toner. The CPU 405 of the toner carries out the arithmetic processing through the ALU or the like, and then transmits the encrypted security information which has undergone such processing to the encryption H / W engine 407. The encrypted H / W engine 407 decrypts the received encrypted security information using one of the plurality of toner security algorithms and transmits the decrypted security information to the CPU 405, After roughly transmitting the decrypted security information to the toner communication engine 403, The toner communication engine 403 goes through a series of processes to transmit the decrypted security information to the printer communication engine 401 again. However, by simplifying such a complicated transmission system according to the prior art, the present invention employs a data communication method as shown in FIG.

Fig. 5 shows the flow of data in the printer and printer toner authentication system according to the embodiment of the present invention disclosed in Figs. 2 and 3. Fig. 5 also shows the relationship between the toner communication engine 503, the toner encryption hardware (H / W) engine 507 and the communication engine 503 included in the printer communication engine 501 included in the printer and the printer toner, / W engine 507 and a central processing unit (CPU) 505 connected to the engine 507. [ The printer communication engine 501 included in the printer toner transmits the encrypted security information to the toner communication engine 503 and the toner communication engine 503 transmits the encrypted security information to the encryption H / W engine 507 . The encryption H / W engine 507 decrypts the received encrypted security information using one of the plurality of toner security algorithms, and transmits the decrypted security information to the toner communication engine 503. [ The toner communication engine 503 transmits the decrypted security information to the printer communication engine 501. [ As described above, according to the data communication method between the printer and the toner of the present invention, the data communication time by the data communication element between the CPU and the communication engine 503 and between the CPU and the encryption H / W engine 507 is shortened The risk of hacking of the security algorithm of the toner can be remarkably reduced.

The apparatus for implementing the above-described techniques of the present invention is not limited to the apparatus as shown in the drawings. It will be apparent to those skilled in the art that various modifications and improvements can be made to the preferred embodiments of the present invention without departing from the scope of the present invention. Accordingly, the present invention includes modifications and improvements corresponding to the claims and their equivalents.

As described above, according to the present invention, it becomes possible to protect the genuine toner from the copying product in order to allow the user to use the original printer toner. In addition, in the printer and printer toner security algorithm according to the present invention, even in the case of regenerated toner, a different level of technology is supported depending on the quality of the toner, so that a regenerative toner market with excellent quality can be developed So that it can coexist with genuine toner and recycled toner business. At the same time, it becomes possible to provide a toner security system capable of preventing the hacking of the printer and the toner security algorithm.

Claims (14)

An authentication system for a printer and a printer toner,
The printer having a plurality of printer security algorithms; And
The printer toner having a plurality of toner security algorithms,
Wherein the printer includes a printer security information transmitting and receiving unit configured to transmit security information encrypted with the toner using one of the plurality of printer security algorithms and to receive information from the toner,
The printer toner includes a toner security information transmission / reception unit, an encryption information analysis unit, and a central processing unit (CPU) connected to each of them,
Wherein the toner security information transmitting and receiving unit is configured to receive the encrypted security information from the printer security information transmitting and receiving unit and transmit the encrypted security information to the encryption information analyzing unit without going through an operation process of the central processing unit,
The encryption information analyzing unit decrypts the received encrypted security information using one of the plurality of toner security algorithms and transmits the decrypted security information to the toner security information transmitting and receiving unit without going through an operation process of the central processing unit Lt; / RTI >
The printer further includes a control unit connected to the printer security information transmitting and receiving unit, wherein the control unit receives the decrypted security information received from the toner security information transmitting and receiving unit in the printer encryption information transmitting and receiving unit, The printer and the printer toner authentication system being configured to determine whether the information corresponds to the information. The method according to claim 1,
Wherein each printer security algorithm of the plurality of printer security algorithms corresponds to at least one of the plurality of toner security algorithms. The method according to claim 1,
Wherein at least one of the plurality of toner security algorithms of the toner is predetermined,
Wherein at least one of the plurality of toner security algorithms is updated by the printer. The method according to claim 1,
Wherein at least one of the plurality of printer security algorithms is updated by a printer external device or a network communication network. An authentication method for a printer and a printer toner,
The printer having a printer security algorithm, the printer toner having a toner security algorithm,
Transmitting, in the printer, the encrypted security information to the toner using the printer security algorithm;
Receiving the encrypted security information from the security information transmitting and receiving unit of the toner and transmitting the encrypted security information to the encryption information analyzing unit of the toner without going through an operation process of the central processing unit;
The encrypted information analyzing unit of the toner decrypts the received encrypted security information using the toner security algorithm and transmits the decrypted security information to the security information transmitting and receiving unit of the toner without passing through the calculation process of the central processing unit Transmitting;
Receiving, at the printer, the decrypted security information from a security information transmitting and receiving unit of the toner;
Determining in the printer whether the decrypted security information corresponds to the encrypted security information; And
Determining the degree of authentication and the level of printer technology based on a result of the determination whether or not the encrypted information corresponds to each other in the printer and based on whether or not the printer toner is manufactured and the printer toner is authenticated , Printer and print toner authentication methods. 6. The method of claim 5,
Wherein the step of determining the authentication level and the printer skill level comprises:
The printer receiving information on the method of manufacturing the toner from the toner; And
And updating the printer security algorithm based on the information on the manufacturing method of the toner. The method according to claim 5 or 6,
Wherein the step of determining the authentication level and the printer skill level comprises:
Based on the updated printer security algorithm based on the toner information,
If the toner is genuine, determine that the printer supports a first authentication level and a first technical level,
Determining that the printer supports a second authentication level and a second technical level if the toner is not genuine and the toner is authentic for use in the printer,
Wherein the printer determines that the printer supports a third authentication level and a third technology level when the toner is not genuine and is not an authenticated toner to be used in the printer. The method according to claim 5 or 6,
The printer having a plurality of printer security algorithms, the printer toner having a plurality of toner security algorithms,
Wherein each printer security algorithm of the plurality of printer security algorithms corresponds to at least one of the plurality of toner security algorithms. The method according to claim 5 or 6,
And applying a different printer security algorithm according to a supported authentication level or skill level, respectively. An authentication system for a printer and a printer toner,
The printer having a printer security algorithm; And
The printer toner having a toner security algorithm,
Wherein the printer includes a printer security information transmitting and receiving unit configured to transmit security information encrypted with the toner using the printer security algorithm and to receive information from the toner,
The printer toner includes a toner security information transmission / reception unit, an encryption information analysis unit, and a central processing unit (CPU) connected to each of them,
Wherein the toner security information transmitting and receiving unit is configured to receive the encrypted security information from the printer security information transmitting and receiving unit and transmit the encrypted security information to the encryption information analyzing unit without going through an operation process of the central processing unit,
Wherein the encryption information analyzing unit is configured to decrypt the received encrypted security information using the toner security algorithm and transmit the decrypted security information to the toner security information transmitting and receiving unit without going through an operation process of the central processing unit,
The printer further includes a control unit connected to the printer security information transmitting and receiving unit, wherein the control unit receives the decrypted security information received from the toner security information transmitting and receiving unit in the printer encryption information transmitting and receiving unit, Information corresponding to the information,
Wherein the control unit of the printer is configured to support an authentication level and a printer technology level based on a result of judging whether encryption information corresponds to each other and based on whether the printer toner is manufactured or not and whether the printer toner is authenticated. And a printer toner authentication system. 11. The method of claim 10,
Wherein the toner further comprises a toner information storage section for storing information on a manufacturing method of the toner,
Wherein the toner information storage unit is configured to transmit the toner information to the printer encryption information transmitting and receiving unit of the printer,
Wherein the control unit of the printer is further configured to update the printer security algorithm based on the toner information. 12. The method of claim 11,
Wherein the control unit of the printer is further configured to, based on the updated printer security algorithm based on the toner information,
Wherein the printer is configured to support a first authentication level and a first technical level when the toner is genuine,
Wherein the printer is configured to support a second authentication level and a second technical level if the toner is not genuine and the toner is authentic for use in the printer,
Wherein the printer is configured to support a third authentication level and a third technology level if the toner is not genuine and is not a toner authenticated to be used with the printer. 13. The method according to any one of claims 10 to 12,
The printer having a plurality of printer security algorithms, the printer toner having a plurality of toner security algorithms,
Wherein each printer security algorithm of the plurality of printer security algorithms corresponds to at least one of the plurality of toner security algorithms. 13. The method according to any one of claims 10 to 12,
Wherein the control unit of the printer is further configured to apply a different printer security algorithm according to a supported authentication level and a technology level, respectively.

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