JPH0652544B2 - CMOS circuit for fuse cutting - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention protects information in a device having an integrated circuit (hereinafter referred to as "IC card" in the present invention) used for credit cards and bank cards, for example. It is used to do. It is essential for this type of card to be provided with some form of protection so that the information stored on it cannot be altered without permission. Therefore,
Once the information or program is on the card, the fuse is blown, thereby preventing modification or addition of the stored information or program.

[Prior Art] In the prior art, the fuse is located in the IC card where the stored data can be written or changed only when the fuse is not cut. Once the desired data is on the card, an external power supply is connected to the fuse to disconnect it.

Problem to be Solved by the Invention The problem with this external fuse blow mechanism is that the fuse can be blown inadvertently and with the data not properly stored in the card. Some cards include a small battery as a power source, which battery is necessary for the operation of the card's circuitry and memory. Other cards, which do not have a battery, are connected to an external power source while using them. If the power supply does not work, information cannot be stored. However, in the conventional fuse cutting circuit, the power supply does not form part of the circuit. Thus, an operator may enter data into a card with an inoperable power supply and then blow the fuse without checking to see if the power supply works. Once the fuse is blown, data cannot be inserted even if the inoperable power supply is replaced. Therefore, the card is like waste.

[Means for Solving the Problems] The present invention solves these problems by providing a CMOS circuit in an IC card. This circuit includes a switching transistor that supplies a fuse cutting voltage to a fuse on an IC card, a field effect transistor (FET) coupled to the switching transistor, a fuse cutting voltage source, an IC card power supply, and a fuse cutting. For input signal. The FET holds the switching transistor in the OFF position even when the fuse cutting voltage is supplied in the absence of the IC card power supply. To disconnect the fuse, the IC card power must be applied to the IC card, the fuse disconnection voltage must be applied, and the fuse disconnection input signal must be present.

The above advantages are obtained with the exemplary circuit shown in FIG. This circuit includes a safety fuse 10, an NPN field effect switching transistor 12, a fuse cutting voltage terminal 14, a fuse cutting signal input terminal 16, an IC card power supply terminal 1.
8 and a semiconductor switch control circuit 20.
The circuit 20 includes five NPN type Fs 22 to 26.
ET and 3 PNP type FETs indicated by 30 to 32
It has and. Of course, it will be appreciated that the conductivity types of the switching transistors and the various FETs can be changed. This change does make some minor modifications to the circuit, but it does not change operation.

[Operation] IC card power supply voltage (V _DD ) applied to the terminal 18 during operation
Turns on FET 32 and FET 26, which keeps the gate of switching transistor 12 near ground potential, thus turning off the switching transistor. Fuse cutting voltage V _pp applied to terminal 14
Is high (20 V) or 0, no effect occurs. V _DD
Is not present and V _pp is high, then FET 22 is on and thus FET 24 is on. The FET 24 holds the gate of the switching transistor 12 again near the ground potential, and the switching transistor 12 is turned off.

In the presence of V _pp , V _DD and the input pulse, the FET 23
And 25 conduct, which turns off FETs 24 and 26. The presence of V _pp turns on FET 31,
A voltage of approximately V _pp is applied to the gate of the switching transistor 12. Therefore, switching transistor 12 is turned on and V _pp is applied to fuse 10, which causes fuse 10 to blow. FET 22 is only used to ensure that the circuit is activated and may be eliminated in some non-critical applications. Fuse 1
A 0 will not be inadvertently disconnected, but if for some reason the circuit does not start properly, it will have to be tried again.

[Effect of the Invention] As described above, when the input pulse is applied to the input terminal 16, the disconnection voltage is applied to the terminal 14, and the supply voltage is IC.
Inadvertent blowing of the fuse 10 cannot occur as it has to be applied to the terminals 18 of the card. If all of these voltages are not present, the fuse 10 will not blow. In addition, since the fuse 10 cannot be cut off if there is no supply voltage, the IC cannot be discarded by cutting the fuse when there is no data or program due to no supply voltage. Since the CMOS circuit is contained in the IC card, virtually no extra space or manufacturing steps are required.

[Brief description of drawings]

FIG. 1 is a schematic diagram of a CMOS fuse cutting circuit of an IC card. FIG. 2 is a plan view seen from above the IC card safety fuse. 10 ... Safety fuse, 12 ... Switching transistor, 14 ... Fuse cutting voltage terminal, 16 ... Fuse cutting signal input terminal, 18 ... IC card voltage terminal.

Claims (1)

[Claims] Claim: What is claimed is: 1. In a CMOS circuit for use in connection with an IC card having a power supply terminal for connecting a power supply voltage and for cutting a safety fuse: a safety fuse; a fuse cutting adapted to receive a supplied fuse cutting voltage. A voltage transistor; a switching transistor, which is a field effect transistor (FET) whose source is coupled to the fuse blowing voltage terminal and whose drain is coupled to one terminal of a safety fuse; adapted to receive an applied fuse blowing signal pulse. Input terminal which is connected to the gate of the switching transistor, the fuse cutting voltage terminal, the power supply terminal and the input terminal of the IC card, and when the voltage is supplied to the fuse cutting voltage terminal but not to the power supply terminal Turn off the transistor, and the voltage is the fuse cutting voltage terminal, power supply terminal and input CMOS circuit, characterized in that it comprises a; switching control circuit for turning on the switching transistor when supplied to the child.