Title of Invention

POWER REVERSAL PROTECTING CIRCUIT FOR AN INTEGRATED CIRCUIT

Abstract

ABSTRACT OF THE DISCLOSURE A power polarity reversal protecting circuit for an integrated circuit includes a protecting transistor. PMOS components annoys components wherein the protecting transistor is a protecting PMOS transistor or a protecting NMOS transistor. If the protecting transistor is the PMOS transistor, a gate and a source of the protecting PMOS transistor are respectively connected to ground and power A drain and a substrate of the protecting PMOS transistor is connected to a substrate of the PMOS component. If the protecting transistor is the protecting NMOS transistor, a gate and a source of the protecting NMOS transistor are respectively connected to power and ground. A drain and a substrate of the protecting NMOS transistor is connected to a substrate of the NMOS component. When the power polarity is in reversal connection, the protecting transistors are terminated to prevent damage from the power polarity reversal connection.

Full Text

1. Field of the Invention The present invention relates to a power polarity reversal protecting circuit, and more particularly to a protecting circuit which provides a protection to components in an integrated circuit so as to avoid damage caused by power polarity reversal. 2. Description of Related Art A requirement of protection from power polarity reversal connection is necessary in a driving circuit of a brushless cooling fan or a battery supplied electronic system. When a power polarity is reversed, a large current is passing through the integrated circuit and hence components in the integrated circuit are burned out. In order to avoid the aforementioned problems, many power polarity reversal protecting means arc provided. With recurrence to l'ig.3. an integrated circuit, such as an inverter, without any power polarity reversal protecting means is shown. The inverter includes a p-channel metal-oxide-semiconductor (PMOS) transistor (30), an n-channel metal-oxide-semiconductor (NMC^S) transistor (31) and two parasitic diodes Dl and D2, wherein a connection of the PMOS transistor (30) and the NMOS transistor (31) is a known technology so it is not be discussed. The parasitic diode Dl has a cathode connected to a substrate of the PMOS transistor (30) and Dower VDD. and an anode is connected to an output of the inverter. The parasitic lode D2 has a cathode connected to the output of the inverter, and an anode is connected to a substrate of she NMOS transistor (30) and ground GND. When the power polarity is correctly connected to the inverter, the inverter operates normally and the two parasitic diodes Dl, D2 are both reversal biased between power VDD and ground GND. Once the power polarity is in reversal connection, it means that power VDD reverses to ground GND and ground GND reverses to power VDD, and the two parasitic diodes Dl, D2 both become forward biased so that the large current is generated. The large current passes through the two parasitic diodes D1, D2 to make the components in the inverter ultimately burn out. With reference to imp, 4. in order to avoid damage caused by power polarity reversal, a protecting diode (40) is connected between the power VDD and the inverter. An anode of the protecting diode (40) is connected to the power VDD, and a cathode of the protecting diode (40) is connected to the inverter. When the power polarity is correctly connected to the inverter, the protecting diode (40) is forward biased and the inverter operates normally. Once the power polarity is in reversal die protecting diode (40) immediately becomes biased and a conducting path through the two parasitic diodes DL 132 is end lots as to prevent the damage otherwise caused by power reversal connection. However, when the protecting diode (40) is forward biased, a constant voltage drop is generated across the protecting diode (40) and hence more power is dissipated. Furthermore, the protecting diode (40) is not set originally in the integrated circuit so an extra consumption of buying the protecting diode (40) is needed and hence the cost of the integrated circuit is raised. To overcome the shortcomings, the present invention tends to provide a power polarity reversal protecting circuit for an integrated circuit to mitigate and obviate the aforementioned problems. The main objective of the invention tends to provide a power polarity reversal protecting circuit for an integrated circuit so as to prevent damage caused by power polarity reversal connection. Accordingly, the present invention provides a power reversal protecting circuit comprising a PMOS component having a source and a substrate, wherein the source of the PMOS component is adapted to connect to a power supply; and a protecting PMOS transistor, wherein a gate of the protecting PMOS transistor is adapted to correct to ground, a source of the protecting PMOS transistor is adapted to connect to the power supply, and a drain and a substrate of the protecting PMOS transistor are connected to the substrate of the PMOS component, wherein when the power supply is in reversal connection, the protecting PMOS transistor is terminated to prevent damage caused by the power reversal connection. Other objects, advantages and novel features to the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings. BRIEF DESCRIPTION OF Tell: Darwinism Fig. 1 is a circuit diagram showing that a first embodiment of a power polarity reversal circuit in accordance with the present invention is applied to a CMOS integrated circuit; Fig. 2 is a circuit diagram showing that a second embodiment of a power polarity reversal circuit in accordance with the present invention is applied to the CMOS integrated circuit: Fig. 3 is a circuit diagram of a conventional inverter without a power polarity reversal circuit; and Fig. 4 is a circuit diagram showing that a protecting diode is applied to the conventional inverter shown in Icing. 3. DETAILED DESCRIPTION Old THE PREFERRED EMBODIMENT With reference to Fig. L a lest preferred embodiment of a power polarity reversal protecting circuit is applied to an integrated circuit, such as a complementary metal-oxide-scmiconductor (CMOS) inverter. The CMOS inverter comprises a p-channel metal-oxide-semiconductor (PMOS) transistor (10), an n-channel metal-oxide-scmiconductor (NMOS) transistor (11), a protecting PMOS transistor (12). and two parasitic diodes Dl and D2. The PMOS transistor (10) and the NMOS transistor (11) are connected to form the inverter. The parasitic diode Dl has a cathode connected to a substrate of the PMOS transistor (10), and an anode is connected to an output of the inverter. The parasitic diode 132 has a cathode connected to the output of the inverter, and an anode is connected to ground GND. A source of the protecting PMOS transistor (12) is connected to a source of the PMOS transistor (10) and power VDD. A gate of the protecting PMOS transistor (12) is connected to ground GND. A substrate and a drain of the protecting PMOS transistor (12) are connected to the cathode of the parasitic diode Dl and the substrate of the PMOS transistor (10). When the power connected to the inverter, the protecting PMOS transistor (12) is in conducting status and the two parasitic diodes Dl, D2 are both biased and hence the inverter operates normally. Once the power polarity is in reversal connection, the gate of the protecting PMOS transistor (12) becomes connected to plovers VDD and causes the protecting PMOS transistor (12) lo be terminated. Because the protecting PMOS transistor (12) is disabled, a conduction path of the two parasitic diodes Dl, D2 s blocked b} the policlinic PMOS transistor (12) so as to prevent damage ;abused by power polarity reversal connection. embodiment of the power polarity reversal protecting circuit is applied to the integrated circuit, such as the inverter, wherein the protecting PMOS transistor (12) shown in Fig. 1 is replaced with a protecting NMOS transistor (13). The cathode of the parasitic diode Dl is connected to power VDD and the substrate of the PMOS transistor (10). The anode of the parasitic diode Dl is connected to the output of the inverter. The cathode of the parasitic diode 1)2 is connected to the substrate of the NMOS transistor (11), and the anode is connected to ground GND. A drain and a substrate of ice NMOS transistor (13) are connected to the cathode of the parasitic diode D2. A gate of the NMOS transistor (13) is connected to power VDD. A source of the NMOS transistor (13) is connected to ground GND. When the power polarity is correctly connected to the inverter, the protecting NMOS transistor (13) is in a conducting status and the two parasitic diodes Dl, D2 are both reversal biased and hence the inverter operates normally. Once the power polarity is in reversal connection, the gate of the protecting NMOS transistor (13) becomes connected to ground GND and causes the protecting NMOS lransisit (13) lo be terminated. Because the protecting NMOS transistor (13) is disabled, a conduction path of the two parasitic diodes Dl, D2 is blocked by the propelling NMOS transistor (13) so as to prevent damage caused by power polarity reversal connection. The power polarity reversal protecting circuit for an integrated circuit has the following advantages: 1. The protecting transistors are simultaneously fabricated in the integrated circuits to protect other components in the integrated circuits, hence no extra protecting components arc needed so that the cost of the integrated circuit is low. 2. When the protecting transistors are in a conducting status, a bias current . of the protecting transistors is very small, whereby almost no power dissipation occurs and there is no voyage drop on the protecting transistors, even in a high power system. 3. The power polarity reversal protecting circuit is suitable for applying to any kind of analog circuits, very large scale integrated circuits (VLSI) and digital circuits, such as NAND gate, NOR gate, inverter and flip flop etc. Although the present invention has been explained in relation to its preferred embodiment, ill is lo be understood that many other possible modifications and variations can be mad without departing from the spirit and scope of the invention as herein Her claimed. WHAT IS CLAIMED IS: 1. A power reversal proceeding circuit comprising: a PMOS component having a source and a substrate, wherein the source of the PMOS is adapted to connect to a power supply; and a protecting PMOS transistor wherein a gate of the protecting PMOS transistor is adapted to connect to ground, a source of the protecting PMOS transistor is adapted to connect to the power supply, and a drain and a substrate of the protecting PMOS transistor arc connected to the substrate of the PMOS component, wherein when the power supply is in reversal connection, the protecting PMOS transistor is terminated to prevent damage caused by the power reversal connection. 2. The power reversal protecting circuit as claimed in claim 1, wherein the PMOS component and the protecting PMOS transistor are fabricated as an integrated circuit. 3. A power reversal protecting circuit comprising: an NMOS component having a source and a substrate, wherein the source of the NMOS componenl is adapted to connect to ground; and a protecting NMOS transistor, wherein a gale of the protecting NMOS transistor is adapted to connect to a power supply, a source of the protecting NMOS transistor is adapted to comet to ground, and a drain and a substrate of the protecting NMOS transistor are connected to a substrate of the NMOS component, wherein when the power supply is in reversal connection, the protecting NMOS transistor is terminated to prevent damage caused by the power reversal connection. 4. The power reversal protecting circuit as claimed in claim 3, wherein the NMOS component and the protecting NMOS transistor are fabricated as an integrated circuit. 5. A power reversal protecting circuit substantially as herein described with reference to figures 1 and 2 of the accompanying drawings.

Documents:

0002-mas-2001 abstract-duplicate.pdf

0002-mas-2001 abstract.pdf

0002-mas-2001 claims-duplicate.pdf

0002-mas-2001 claims.pdf

0002-mas-2001 correspondence-others.pdf

0002-mas-2001 correspondence-po.pdf

0002-mas-2001 description (complete)-duplicate.pdf

0002-mas-2001 description (complete).pdf

0002-mas-2001 drawings-duplicate.pdf

0002-mas-2001 drawings.pdf

0002-mas-2001 form-1.pdf

0002-mas-2001 form-19.pdf

0002-mas-2001 form-26.pdf

0002-mas-2001 form-3.pdf

0002-mas-2001 petition.pdf