WO2008031547A1

WO2008031547A1 - Magnetically programmable eeprom

Info

Publication number: WO2008031547A1
Application number: PCT/EP2007/007870
Authority: WO
Inventors: Manfred Herz
Original assignee: Ic-Haus Gmbh
Priority date: 2006-09-11
Filing date: 2007-09-10
Publication date: 2008-03-20
Also published as: DE102006043222A1

Abstract

The invention relates to an electronic storage device, particularly an EEPROM, which can be programmed in a special way. The invention particularly relates to an additional flexible and easy-to-handle possibility for programming an electronic storage component, especially a conventional EEPROM. A storage device according to the invention accordingly comprises a non-volatile, programmable storage unit which is advantageously configured as an EEPROM or EAPROM as well as a wireless communication interface for programming the storage unit. Communication between the storage device as the receiver and a programming device as the transmitter is based on a modulated magnetic field which is generated by the transmitter and is evaluated by the receiver. In order to do so, the communication interface encompasses a receiver unit that is configured to measure a magnetic field strength as well as an evaluation unit which is connected to the storage unit and is configured to evaluate output signals of the receiver unit.

Description

Magnetically programmable EEPROM

description

The invention relates generally to memory devices, and more particularly to programmable EEPROMs.

Non-volatile, electronic memory modules of the EEPROM type, which can be erased and reprogrammed using a programming device, are widely used today. In electromechanical systems, such as a rotary encoder, built-in electronic evaluation circuits usually require a one-off, for example factory, ie. initial programming of the system parameters. This programming is typically stored in an EEPROM so that it is available after each reconnection. The programming lines required for programming are usually used only for this process and are then obsolete and not accessible to the user.

The invention is therefore based on the object to show a new and improved way how an electronic storage device, in particular an EEPROM, can be programmed. In particular, it is an object of

Invention, an additional flexible and easy-to-use programming option of an electronic memory module, in particular a conventional EEPROM, to provide.

The object is achieved by an article according to one of the appended independent claims. advantageous Embodiments and developments are the subject of the dependent claims.

Accordingly, a memory device comprises a non-volatile, programmable memory unit, which is advantageously designed as an EEPROM or EAPROM, and a wireless communication interface for programming the memory unit, wherein the communication between the memory device as a receiver and a programming device as a transmitter on a modulated

Magnetic field sets up, which is generated by the transmitter and evaluated by the receiver. For this purpose, the communication interface comprises a receiving unit designed to measure a magnetic field strength and an evaluation unit designed to evaluate output signals of the receiving unit and connected to the memory unit.

A magnetic field strength can be measured in a simple way by utilizing the Hall effect, therefore, the receiving unit for measuring a magnetic field strength advantageously a Hall sensor, also referred to as Hall probe or Hall element, on.

Since the memory device is advantageously based on known memory units available on the market, an externally accessible programming line for electrically programming the memory unit is also typically provided, so that the wireless magnetic field based on a modulated magnetic field

Communication interface is available as an additional programming interface. In order to achieve as compact a construction as possible, the receiving unit, evaluation unit and storage unit are preferably arranged on a common die.

Conveniently, the communication interface for receiving digital data is formed, which are transmitted by means of a modulated magnetic field, wherein the communication interface is advantageously designed for a serial data reception. Advantageously usable serial data transmission protocols include, for example, the protocols I ² C and SPI. However, the use of other suitable data transmission protocols is also within the scope of the invention. Furthermore, the same protocol can be provided for the wireless communication interface, which is also used for programming by means of a conventional electrical programming line. Depending on the purpose, different protocols can advantageously be provided.

Furthermore, measures can be provided that acknowledge a completed programming. For example, the lines leading to the evaluation unit or an additional wireless connection can be used for this purpose.

With particular advantage, the storage device comprises a preferably electrically conductive shield against electrical interference. So that the programming of the memory unit is not impaired by the shielding by means of a modulated magnetic field, the shield is preferably substantially transparent for modulated magnetic fields with an exemplary modulation frequency up to 1 kHz.

A programming unit for wireless programming of a non-volatile, programmable memory unit, which A receiving unit designed to measure a magnetic field strength and an evaluation unit designed to evaluate output signals of the receiving unit, wherein the evaluation unit can be electrically connected to the memory unit for programming, is also located in FIG

Frame of the invention. Such a programming unit can be used, for example, advantageously for expanding existing storage units, in particular of the EEPROM or EAPROM type.

A system for programming a non-volatile, programmable memory unit comprises in a first embodiment a transmitting device for generating a modulated magnetic field as a function of digital data to be programmed, as well as a memory module as described above.

In a second embodiment, a system for programming a nonvolatile, programmable memory unit comprises a commercially available memory unit designed as an EEPROM or EAPROM, a programming unit connected to the memory unit as described above and a transmitter for generating a modulated magnetic field as a function of digital data to be programmed.

The invention will now be described by way of example with reference to a preferred embodiment and with reference to the accompanying drawings.

Fig. 1 shows a schematic representation of a system of transmitter 100 and receiver 200, wherein the receiver 200 forms a preferred embodiment of a memory module. The system is for wireless programming of a formed in the memory module 200 integrated EEPROM 230.

The functionality of the programming is described below.

The programming device embodied as transmitter 100 comprises a device 110 for generating a modulated voltage signal as a function of digital data to be transmitted. By applying the modulated

Voltage signal to a designed as a magnetic transmitter coil 120, a modulated magnetic field is generated. The modulation voltage can also be supplied to the transmitter 100 by a separate device, not shown. The magnetic field is advantageously modulated so that a magnetic source of interference can not trigger accidental programming.

The receiver 200 comprises a receiving unit 210 with a Hall sensor for measuring the magnetic field strength of the modulated magnetic field. For this purpose, for example, a current flow is generated between the terminals A and C and the voltage generated by the Hall effect between the terminals B and D measured. The receiving unit 210 is connected for programming directly or indirectly with the storage unit 230 designed as an EEPROM. In the illustrated embodiment, the decoder 220 is connected between the receiving unit 210 and the EEPROM 230, which evaluates the received signals according to a predetermined protocol. The protocol used is preferably a serial data transmission protocol such as, for example, I ² C or SPI. Depending on the intended use, the transmitted data can also be encrypted. In the present embodiment, a conventional programming line 250 is further provided for electrical programming of the EEPROM 230, by means of which, for example, via an integrated control logic 240, a programming of the EEPROM 230 in a known manner is made possible. Thus, in the illustrated embodiment, the invention provides an additional programming interface that allows the user to easily and flexibly program the EEPROM 230. Since the programming according to the invention takes place wirelessly via a magnetic field, conventional programming lines can also be completely dispensed with for special purposes.

A particular advantage of the invention is that the magnetic field used is able to penetrate even electrically shielded systems. In addition, the Hall sensor used for signal reception causes only small additional costs and thus represents a suitable alternative to wired programming.

Claims

claims

A memory device (200) having a non-volatile, programmable memory unit (230) and a wireless communication interface for programming the

Memory unit, wherein the communication interface comprises a receiving unit (210) designed to measure a magnetic field strength and an evaluation unit (220) designed to evaluate output signals of the receiving unit (210) and connected to the memory unit (230).

2. Storage device according to claim 1, wherein the memory unit (230) is formed as EEPROM or EAPROM.

3. Storage device according to one of the preceding claims, wherein the receiving unit (210) for measuring a magnetic field strength comprises a Hall sensor.

A memory device according to any one of the preceding claims, comprising at least one externally accessible programming line (250) for electrically programming the memory unit (230).

5. Storage device according to one of the preceding claims, wherein the receiving unit (210), evaluation unit

(220) and memory unit (230) are arranged on a common chip.

6. Storage device according to one of the preceding claims, wherein the communication interface for receiving digital data is formed, which are transmitted by means of a modulated magnetic field.

7. Storage device according to one of the preceding claims, wherein the communication interface is designed for a serial data reception.

8. The memory device according to claim 7, wherein the

Communication interface for a data reception according to one of the serial data transmission protocols I ² C or SPI is formed.

9. Storage device according to one of the preceding

Claims, comprising a shield against electrical interference.

The memory device of claim 9, wherein the modulated magnetic field shield is substantially transparent.

11. Programming unit for wireless programming of a non-volatile, programmable memory unit, comprising a receiving unit (210) designed to measure a magnetic field strength and an evaluation unit (220) designed to evaluate output signals of the receiving unit (210), wherein the evaluation unit (220) is electrically programmed for programming the storage unit is connectable.

12. A system for programming a non-volatile, programmable memory unit, comprising

a transmitting device (100) for generating a modulated magnetic field as a function of digital data to be programmed, and

- A storage device (200) according to any one of claims 1 to 10.

13. A system for programming a non-volatile, programmable memory unit, comprising

a commercially available memory unit designed as EEPROM or EAPROM,

- A programming unit connected to the memory unit according to claim 11, and

- A transmitting device (100) for generating a modulated magnetic field in response to digital data to be programmed.