TW410502B - I/O protection device with capacitance coupling - Google Patents

Abstract

There is disclosed an I/O protection device adapted for a dual power supply, which has an output buffer and a pre-stage buffer connected to the output buffer in series. When the output end of the output buffer presents a signal with a predetermined high voltage, a coupling capacitor is utilized to couple the output end of the output buffer to the input end thereof, so as to produce a coupling signal with a half of the predetermined voltage on the input end, thereby selecting a control NOT gate to turn off the pre-stage buffer and isolate the grounded discharge path. Therefore, the coupling signal is maintained on the input end of the output buffer thereby avoiding a damage to the output buffer. However, in case that a signal with a tolerable predetermined voltage is presented on the output end of the output buffer, the control NOT gate turns on the pre-stage buffer to perform the normal operation in an output mode.

Description

^ ¾ 部 中 呔 " '^' ^ m-Yu Yuzhu Shan Yin t 410502 A7 --------- B7 V. Description of the invention (1) The present invention relates to an I / O protection device, It is particularly related to an I / O protection device and its structure (I / O protection device) for preventing high damage in static electricity or dual power supply. In the application of integrated circuits (ICs), high-voltage invasion from the chip's output / input pads (I / O pads) causes damage to internal circuits, which has been an urgent problem to be improved. Especially after entering the ultra large-scale integrated circuit (ULSI) generation, 'for example, semiconductor devices formed using deep sub-micron processes below 0.25 μm', such as CMOS ICs, the use of thin gate oxides has attenuated electrical The high voltage resistance of the crystal affects its reliability. In addition, because the current operating voltage of very large (VLSI) or very large (ULSI) integrated circuit chips is gradually decreasing due to the advancement of semiconductor manufacturing technology and saving energy requirements, it was previously only used for The chip design of a single voltage system is not suitable ', and it is difficult to avoid the generation of interface voltages with different potential levels between various digital electronic components. Furthermore,' hybrid voltage is also applied to many circuit types' Features: Different working voltages are used in different sections of the circuit, such as I / O circuits and core logic circuits (ASIC: application specific integrated circuit) of analog-logic hybrid circuits. ), Or embedded dynamic random access memory (embedded DRAM), etc. If the current product specifications are taken as an example, the typical common operating voltage in digital electronic systems is 5 volts, but the power consumption can be reduced due to lower operating voltage and Improved performance, therefore, 33 3 paper ft 纟 纟 ii and 1 home material (CNS ) Λ4 specifications (2) GX 297 public Chu) ^ ~ ----- 1L__l · ~ ______ 丁 ______you 1 (诮 Please read the precautions on the back before filling in '"? This page) 410502 A7 _________________ _B7 V. Description of the invention (2) ~ Electronic components with working voltage of 2.5 volts and 2.5 volts (or even .8 volts) appear. For example, in the computer system shown in Figure 1, the device circuit 40 includes internal circuits such as core logic 44 ( Core i〇gic) and a plurality of 1 / 〇 circuits I / O circuits generally consist of output / input pads (I / O pads) and I / O buffer strings (i / Q buffers). The core logic 44 needs to pass I / C ) Circuits are coupling with external circuits, but these external circuits each have a corresponding working voltage, such as a microprocessor (CPU) 10 with a working voltage of 2.5 volts, and a static random working voltage of 3.3 volts. Access memory (SRAM) 20, or dynamic random access memory (DRAM) 30 with an operating voltage of 5 volts, which can be passed through I / O pads 12, 22, 32 and I / O buffer strings 14, 24, 34 To lightly connect to the internal circuit 44. Among them, according to the traditional process, the thin gate oxide layer has insufficient high-voltage resistance and the valley is easily damaged, while the thick gate oxide layer Will cause poor performance of the transistor '. Therefore,' the current common practice is to pass the 1/0 buffer string through the gate oxide layer of different thickness to match the working voltage of different levels', even if the gate structure Has different gate-on voltages. As shown in Figure 2, 'The gate structure is formed with 3V and 5V transistors i6a, 16b on the surface of the substrate ι〇, and the field oxide layer 11 is used to isolate the active area.' Second, gates of different thicknesses An oxide layer 16a'16b and a polycrystalline silicon layer 180 are respectively formed on the surface of the active region. The thickness of the thin gate oxide layer 16a is about 70 people, so the transistor 16a can work at 3.3 volts. Operating under voltage (conduction), thick gate oxide layer 16〇b 4 This paper scale follows the Chinese national standard (〇 ^〉 八 4 格 (2) 〇 '乂 297mm) (诮 Read the precautions on the back before reading硪 T Ben S) '

'1T-line 丨.' —— 1 —— 410502 A7 _ B7 Five 'Description of the invention (3) The thickness is about 100 A, so the transistor 16b can be operated (conducted) at a working voltage of 5 volts. However, since the traditional method is to adjust the corresponding gate conduction voltage according to the working voltage of different levels, in the process, it is necessary to deposit gate oxide layers of different thicknesses to form different gate conduction voltages. The gate oxide layer of the same thickness is formed in the internal circuit, and it is very difficult and complicated in the manufacturing process. Furthermore, the formation of the gate oxide layer of different thickness in the manufacturing process is prone to defects, so the reliability is not good. In view of this, the purpose of the present invention is to divide the excessive voltage appearing on the 1/0 pad by using a coupling capacitor to divide the voltage to form a coupling signal at the input end of the output buffer and reduce the voltage across the gate oxide layer. Poor, avoid damage. The coupling capacitor can be a stacked capacitor structure to be compatible with the existing semiconductor processes. Another object of the present invention is to use the control back gate to output an isolation control signal to isolate the output end of the front stage buffer from the ground node.

Because it is coupled to the input end of the output buffer, the coupling signal value is continuously maintained to protect the I / O circuit D. In order to achieve the above object, the present invention provides a 1/0 protection device, which includes a-output buffer : A coupling capacitor is coupled to the output end of the output buffer to its input end, so that when a predetermined potential signal appears at the output end of the output buffer, a coupling signal is formed at its input end; a control reverse brake, which The input end of the output buffer is coupled to output-isolate the control signal when the coupling signal reaches a first voltage value, and output-normal control when the coupling signal is below a second voltage value. 5 ^ Scale ^^^ Reward Family Materials 1 ^) Person 4 Secret (210 \ 297 Gongchu > ~ --- IIK n --- I ^ I «^ 1 1 IH ------- T --- 1 1 -I---^ HV Ί Λ JI (please ^ read the notes on the back again " 'write this page') 5 410502 A7 B7 Description of Invention (4) ~ —— ~~~~ ———— Wave 'and — The front stage buffer is 5 !, and the input voltage is poor. The output terminal is coupled to the / V mouth of the wheel-out buffer, and it is used for Α & Γ ~ When the “receiver” of the control reverse brake input is the isolated control signal, make the front stage slow = the output terminal is isolated from ground, and when the receiver is 1 ° for the normal control, make the front stage buffer In order to make the above and other objects of the present invention obvious and easy to understand, the following is enumerated-the preferred embodiment is described in detail as follows: Brief description of the diagram: Figure 1 shows the display-traditional logic circuit with different work Block diagram of voltage external circuit coupling. Figure 2 shows the cross-section of a semiconductor with different gate oxide layer thicknesses according to the traditional process. Figure 3 shows the output buffer string of a traditional I / O circuit. Figure 4 Fig. 5 shows an embodiment of the 1/0 protection device of the present invention. Fig. 5 shows the characteristics and advantages of the coupling capacitor portion of the 1/0 protection device of Fig. 4 and can be further matched with the attached drawings. The diagram is shown in Fig. 4 of the 1/0 control device of the protection device. The 7th diagram is shown in Fig. 6 of the 1/0 control device of the control device. ◦Semiconductor junction of the coupling capacitor of the protection device Cross-section diagram. Symbols indicate the national standard of this paper (CNS) A4 specification (210X 297 mm). ------: ------ "-— II--Order— II line 1 1 ((Read the precautions on the back before reading the book H j), * 屮 λ il .τ ίίί t: 厶 ϊ \ 卬 r A7 B7 V. Description of the invention (5) — ~ — 1〇 , 20, 30 ~ external circuits; 12 '22, 32 ~ 1/0 pads; 14, 24, 34 ~ 1/0 buffer strings; 40 ~ core logic; 44 ~ internal circuits; 16a, _ ~ transistor ·' 100 ~ silicon substrate; " 0 ~ field oxide layer; 130, 140 ~ polycrystalline stone layer n160b ~ gate oxide layer: 3ι, 4〇〇 ~ previous buffer, 330 430 ~ output buffer; INV1 ~ control Anti-gate; Cc ~ Coupling, 450 ~ I / O 塾; 800 ~ Shi Xi substrate; 81 ~ Shallow trench oxide layer; 830 ~ Source / drain: 85 ~~ gate; 87 ~~ Crystal silicon layer. Example In order to clearly distinguish the difference between the embodiment of the present invention and the conventional technology, let's not talk about the traditional output buffer in Figure 3 and the circuit diagram of the protection device in Figure 4 for comparison. First, please refer to FIG. 3. In the 1/0 circuit, the traditional output buffer series is composed of an output buffer 330 and a previous-stage buffer 310 (but not limited to one stage). It belongs to the CM0f structure. The "level buffer 310" includes a PM0s transistor M7 and an NMOS transistor M5 connected in series. The PM0s transistor M7 is coupled to the system supply voltage VDD 'and the NM0S transistor MS is coupled to a ground node. vss. Similarly, the buffer 330 includes a PMMOS transistor M2 and a NMOS transistor M1 ′ PM0S transistor M2 connected in series to the system supply voltage VDD, and the NMOS transistor V1 is coupled to the ground node VSS. Generally, in the output mode (outpUt mode), the number provided by the internal circuit is in accordance with the rated value range of the voltage, such as 2.5V. Therefore, the buffers 31 and 33 can operate normally, that is, when The internal circuit provides a signal V7 to the gate input terminal A7 of the front stage buffer 310. This paper ruler describes the China National Standard (CNS) Λ4 specification (factory 0 > < 297 mm) -------- --ί From ------ Order ------ ^ I r ~ (诮 Read the notes on the back before filling this page) A7 B7 410502 ------------ ------_ 5. Description of the invention (6 330 '2 The output is output by the output terminal V2 to the lower-level output buffer and then output by the output buffer 330. ° Sometimes the output buffer The output terminal A1 of 330 will output a voltage signal such as a high electrostatic voltage (ESD), or another external circuit at = output-a predetermined potential signal VDDH as the input of other output buffers (not shown) with a higher voltage rating ^ At this time, the high voltage value of the predetermined potential signal such as VDDH = 5V will appear at the output terminal A1 of the output buffer 33 at the same time. At this time, the transistor M1 and the ground are grounded. The gate oxide layer of VSS is easily damaged by this high voltage. On the contrary, please refer to FIG. 4, which shows an embodiment of the 1/0 protection device of the present invention. The numbered ones represent the same components and will not be described later. According to FIG. 4, this embodiment mainly includes an output buffer 430 'and the coupling capacitor Cc is coupled to the output terminal A1 of the output buffer 430 to its input. The terminal A2 'is used to form a coupling signal V2 at its input terminal A2 when a predetermined potential signal V1 appears at the output terminal A1 of the output buffer 430 when the situation shown in FIG. 3 occurs. In addition, the embodiment also Provide a control reverse brake INV1, which is connected to the input terminal A2 of the aforementioned output buffer 430, to 'output an isolation control signal L' when the coupling signal v2 reaches a first voltage value (0 · 5 VDDH) and when coupled When the signal V2 is below a second voltage value (0.5VDDL), a normal control signal is output. Also, the I / O protection device further includes a plurality of series-connected previous-stage buffers, wherein the last-stage front-stage buffers are displayed here. 410. Fore buffer 41 〇 This paper Dimension description / 1] Chinese National Standard ® M CNS) A4 specification (210 × 297 male Chu) (诮 Please read the precautions on the back before filling this page), 1T-Jun!浐 部 tA «.M '-^,-; i1-eliminated together 410508 A7 --------------------- --- Η / V. Invention Explanation (7) 'A2' stands: output terminal A5, which is coupled to the input terminal of output buffer 430, ', has a control terminal A6', which is coupled to the wheel output A3 of the control reverse brake INv 丨 for the receiver In order to isolate the wheel of the control signal buffer 410, the Ac reference is used to isolate the output from the ground VSS, and when the received system number is received, the front-stage buffer 41o operates normally. For example. In the 1/0 circuit, a high voltage signal sometimes appears at the output terminal A1 of the output buffer 430, for example, in an external circuit with a higher operating voltage VDDH or a lower operating voltage vddl: When the potential output signal is used by other wheelers with output buffers (not shown τ), the voltage value of this predetermined positive potential signal (such as (VDDH = 5V, VDDL 2.5V) will also appear at 1 / 〇 塾 45〇) That is, the predetermined potential signal VI appearing at the output terminal A1 of the output buffer 430 may be a lower operating calendar VDDL that the output buffer 430 can withstand, or a comparison that the output buffer 430 cannot withstand. High operating voltage VDDH. Based on the foregoing, please refer to Fig. 4 and refer to Fig. 5, because the implementation of the system is to make the coupling capacitor Cc coupled to the output terminal A1 of the output buffer 43 (the end of the transistor M1) to its input A2 (the transistor The gate of M1) is shown in the equivalent circuit of Fig. 5. At this time, the coupling capacitor crosses the pole output # A1 and the open-electrode input A2, and the open-circuit power valley Cg of the transistor M1 crosses the gate wheel. Terminal A2 and ground node VSS, so the gate wheel input terminal A2 will form a coupling signal V2. According to the series line formed by I / O pad-A1-Cc-A2-Cg-VSS, it can be known that the coupling signal V2 is the output terminal A1. The predetermined partial voltage of the potential signal 乂 丨, so if you adjust the 9 family of paper music scales (关) A < J specifications (2) Gx 297 cm) I-^ ----- l ·- ί In ------ Order ------ 4 — (I read the precautions on the back before writing this page) 410502 A7 B7 V. Description of the invention (8) — — _ Appropriate value of Cc ' For example, if the capacitance Cc = Cg, then the coupling signal V2 = G.5V1, that is, the voltage difference W across the open-electrode layer of the closed-electrode capacitor Cg, * the interlayer insulation layer (V1- V2), the potential range is 祜 ^ Qiao granary is limited to a tin (5 square VDDL~〇 5 VDDH), it is not easy due to the high voltage output of the buffer νι of 43〇 damaged. Referring to FIG. 8, a cross-sectional view of a part of the semiconductor structure in the embodiment of the coupling capacitor Cc is shown. This coupling capacitor is mainly established on the gate of the transistor M1, that is, on a substrate 800 having a source / inverter 83, which is isolated by a shallow trench isolation structure 810, and sequentially forms a gate insulation. Layer 890 and a gate conductive layer 85 °, which constitute the transistor M1, and then form a stack of #structures, which includes at least an interlayer insulating layer 860 and a second conductive layer 87 °, which are formed on the gate conductive layer 8 The surface and the stacked structure determine the coupling capacitance value a and the gate capacitance value Cg according to the area occupied by the gate conductive layer 85 and the second conductive layer 870 and their overlapping sensing areas. For example, a silicon substrate 800 has a lightly doped source and a drain 830, respectively. The drain is coupled to the I / C pad 45, and is used as the drain output terminal A1 of the output buffer 430. A gate oxide layer 890 is formed on the surface of the silicon substrate 800, and a polycrystalline silicon layer 850 is formed on the surface of the gate oxide layer 890, which is used as the cathode input terminal A2 of the output buffer 430. In addition, the built-up structure, 'here one layer is taken as an example', includes an interlayer insulating layer 86 and a polycrystalline broken layer 870 formed on the surface of the gate polycrystalline silicon layer 860. The foregoing structure forms an insulating gap on the side wall. 880. The size of this paper ^ China National Cotton Standard (CNS) Regulation 8 (2 | 〇χ297mm > ------ r--ίA ------ order ------ flavor 1 (" Read the precautions on the back first, and then clever this page} 410502 Λ7 ______________________________ B7 V. Description of the invention (9) — The coupling capacitor Cc of the inter-layer insulation layer 860 thus formed and the closed pole of the gate insulation layer The capacitance Cg is based on the area occupied by the polycrystalline silicon layer and the polycrystalline silicon layer 870 and its overlapping sensing area to adjust the values of the coupling capacitance Cc and the gate capacitance Cg. For example, if Ce = Cg, the interlayer insulation layer is crossed. The voltage difference of 860 and the voltage difference of 89 across the gate oxide layer are equal to about 0.5V. Both of them are not easy to cause damage. 纟 + V1 includes potential voltages VDDH and VDDL of different logic levels, such as 5 V and 2.5V. However, during the high voltage of V1 such as VDDH at the output terminal A1 of the buffer 430, the coupling signal V2 of the input terminal of the buffer 430 (M1 thyristor extreme) 8 must be sufficient for a period of time, otherwise once it is cycled Discharge path and discharge from the ground node, the voltage difference between the cross-coupling capacitor Cc and the cross-gate capacitor _ Cg will be Return to VDDH, if the isolated insulation layer is damaged, the output buffer 430 will also lose its function. Based on the foregoing, please cooperate with Figure 4 and refer to Figures 6 and 7 to maintain the buffer 43. 〇 Input (M1 transistor gate) A2 consumption signal V2, as shown in Figure 4, this embodiment adds a control transistor such as nm 0 transistor M6 and its control gate terminal to the front buffer 410 in this embodiment. A6, and Fig. 6 provides a control reverse brake iNV 丨, which is formed by a series connection of an NMOS transistor M3 coupled to the ground node VSS and a PMOS transistor M4 coupled to the system power supply VDD. Among them, the gates of the transistors M3 and M4 The pole is connected to the buffer 43 ° input terminal, which is the mi transistor gate terminal A2, and the series drain output terminal A3 is coupled to the control gate terminal A6 of the control transistor M6 in the previous stage buffer 410. 11 Dimensions Country National Humble (CNS) A4 specification (210X297 mm) ---------- K --- uli Table ------ ^ ------- Λ (诮 Please read the note on the back first Matters again? * Ben 1) 410502 A7 B7 ----- ---- ----------.------------ ---- ---- -___... _ — V. Description of the invention (10) Figure. The relationship between the turn-in (A2) / output (A3) to be formed by controlling the reverse gate INV1 is shown in Table 1. Among them, by using the characteristic curves of the mosquito-control PMOS transistor M4 and the NMOS transistor M3, a The control logic INV1 of the high logic switching voltage value Vtl, such as using an ion implantation step such as implanting boron fluoride ion (BF2), to increase the initial voltage value Vt of the NMOS transistor M3 controlling the voltage INV1. Vt (M3) = 0.5VDDL 'to control the logic switching voltage Vtl of the control reverse gate INV1 between 0.5VDDL and 0.5VDDH. As for the logic switching voltage Vtl and the switching interval (A, B) of 0.5VDDL and 0.5VDDH, compared with The better one is to select 0.05V < A <2V; 0.05V < B < 2V. (诮 Read the back of the note first, and then "quot: ':': " this page) Table 1 Control Inverter INV1 (Logic F conversion voltage value Vtl) Input A2 Output A3 0.5VDDL Logic 1 potential: H (hi £ h) 0.5VDDH logic 0 potential: Ulow) -Order -__ Therefore, when the coupling signal V2 is a higher voltage value, such as 0.5VDDH, Bay ,! The transistor M3 of the control inverter INV1 can be turned on, thereby outputting a logic 0 low-potential signal (L) and using it as an isolation control signal 'and when the handle signal V2 is a lower voltage value, such as ( K5VDDL 'can make the transistor M3 of the control inverter INV1 turn off, so it outputs a logic 1 high potential signal (H) as a normal control signal. As for the operation of the front stage buffer 410 and the control inverter INV1 The relationship is as shown in Figure 4. 'The front stage buffer 41〇 includes a coupling paper to the ground node 12 paper size. This uses 1hf national standard (CNS) A4 specification (210X297 cm) 410502 A7 _______B7 V. Description of the invention ( 11) (Please read the precautions on the back before filling in this text) The NMOS transistor M5 of VSS and a PMOS transistor M7 coupled to the system power VDD, the gates of the transistors M5 and M7 are connected together to form an input terminal A7 'In the output mode', it receives signals from internal circuits to transmit it to the output buffer 430 ', and the pmMOS transistor M6 is connected in series between the NMOS transistor M5 and the PMOS transistor M7. The common connection of the drains of the transistors M6 and M7 in the stage buffer 410 An output terminal A5 ′ is formed, which is coupled to the input terminal A2 of the output buffer 430. In addition, the transistor M6 has a control gate terminal A6, which is coupled to the wheel output terminal A3 of the control inverter INV1. Therefore, when the output buffer 430 When a predetermined potential "No. VI" appears at the output terminal A1, the input terminal A2 of the output buffer 430 forms a light-on signal V2 of about 0.5V1 through the divided voltage of the surface-bonding capacitor Cc. 〇5. When VDDH (greater than the logic switching voltage VU of the control inverse gate invi), the control inverse gate INV1 outputs a low-level isolation control signal L and is received by the control gate terminal A6 of the transistor M6, so that the transistor M6 is turned off. The output terminal 85 of the stage buffer 410 is isolated from the ground node VSS. Conversely, when the combined signal V2 is 0.5VDDL (less than the logic switching voltage Vtl of the control inverter INV1), the anti-closing mvi is turned to a high potential. The normal control signal Η is received by the control gate terminal a6 of the transistor M6, so that the transistor M6 is turned on. Therefore, in the output mode (〇utput m〇de), the input (A7) / output (A5) of the front buffer 410 ) Can operate normally according to the transistor M5, M7. 13 Paper size Deduct Chinese storehouse standard (CNS) A4 specification (210X297 mm> A7 410502 B7, -v _ — — --..-. —-V. Description of the invention (12) In addition, according to Figure 7 if it appears in the output The predetermined potential signal V1 of the output terminal A1 of the buffer 43 is a low-potential signal such as a logic 0 k number or a ground signal and the value is less than 0.5VDDL. Because the transistor M3 that controls the reverse brake INV1 remains closed, the control The anti-gate INV1 outputs a high-level normal control signal H, so that the transistor M6 is turned on, and the former buffer 410 is in a normal operating state. In summary, the above embodiment of the present invention uses a coupling capacitor to divide the over-high voltage appearing on the 1/0 pad, and outputs an isolation control signal by the control back gate to isolate the output end of the front buffer from the ground node. As the output end of the front buffer is coupled to the input end of the output buffer, this voltage division value can be continuously maintained to 'reduce the voltage difference between the power dissipation capacitor and the gate valley' to prevent static electricity in the I / O circuit or High voltage damage in multi-voltage power supplies. In addition, the 'coupling capacitor' can be a stacked capacitor structure, so it is compatible with existing steps and avoids traditional complicated semiconductor processes. Although the present invention has been disclosed in the following with a preferred embodiment, it is not intended to limit the present invention, 'any person skilled in the art, without departing from the spirit and scope of the present invention', can make a few changes and retouching. The scope of protection of the invention shall be determined by the scope of the attached patent application. 14 This paper is suitable for the Sichuan National Standards ((:) ^) 8 4 specifications (2) 0: < 297 mm) (诮 Read the following precautions before writing this page}

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Claims (1)

410502. The patent application scope protection device includes: ~ round-out buffer; when the output of the output buffer is 'coupled to the round-out buffer' to its input, the The input terminal is formed at two terminals-a predetermined potential signal and a control anti-free, which is coupled when the coupling signal reaches the input terminal of the output buffer 'for numbering, and when the coupling ~ number is at the value' output-isolation control signal value The following: when the second voltage value is less than the first voltage value, a normal control signal is output; and a front buffer, which is connected to the input end of the output buffer and 屮 4 山 * & 媸, and It also has a control terminal; is 炻 木 炻 姐 ,， 上 * ^ 乂 is coupled to the output of the control back gate, so that the receiver can make the output of the front buffer when the receiver makes ^ ^ ^ for the isolation control. The terminal is isolated from the ground, and when the receiver of the connected field is the normal control signal, the front buffer is operated normally. 2. The device according to item [Scope of the patent application], the buffer of which comprises: a system voltage source; a ground node; a first PMOS transistor 'lightly connected to the system voltage source; and a first NMOS transistor, Coupled to the ground node and connected in series with the first PMOS transistor; Λ, wherein the gate of the first PMOS transistor and the first NMOS transistor are connected in common to form an input terminal, and the drains of the first PMOS transistor are connected in common; An output terminal is formed. 15 This paper size is applicable to the Chinese national standard (CNS > A4 scale (210X 297mm)) Please read the item on the back before printing i. B8 C8 D8 printed by the staff consumer cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 6. Scope of patent application 3. For example, the PMOS transistor formed in the patent application No. 2 is formed with a gate capacitor. The device described in the fourth paragraph of the application is as described in the patent application No. 3, wherein the surface is closed, and the valley is composed of a stacked capacitor structure. It is formed on the gate surface of the first-resistance transistor, and includes: an interlayer insulation layer formed on the gate surface of the first-purchase OS transistor; and a polycrystalline silicon layer formed on the surface of the interlayer insulation layer. 5. The device according to claim 4 of the patent scope, wherein the complex crystal layer of the stacked capacitor structure and the common end of the output buffer of the output buffer. 6 As described in the fifth scope of the patent scope Device, wherein the gate capacitance value is approximately equal to the combined capacitance value. 7. The device according to item 6 of the scope of patent application, wherein in the output buffer, the coupling signal of the common gate input terminal is approximately equal to the No connection Half of the predetermined potential signal. 8. The device as described in item 1 of the scope of patent application, wherein the control reverse brake has a logic switching voltage whose range falls within this (first voltage value, second voltage value). 9. The device as described in item 8 of the scope of the patent application, wherein the (first voltage value, logic conversion voltage) conversion interval is approximately between (0.05V, 2V) 'and the (logic conversion voltage , The second voltage value) conversion interval is about (0.05V, 2V). 10. The device as described in item 9 of the scope of patent application, wherein the control of the paper size applies to the Chinese National Standard (CMS) A4 specification (210X297 mm)-^ ----- ^-V-· ------ Order ------ Yuan (Please read the notes on the back before filling in this purchase) Central Ministry of Economic Affairs Standards Bureau staff printed ABCD 410502 Cooperative 6. The patent application scope includes: a system voltage source; a ground node; a second PMOS transistor to expose the system voltage source; and a second NMOS transistor , Coupled to the ground two PMOS transistors in series; Wei Yuyuan first, the second PM The os transistor and the gate of the second NMOS transistor are connected together to form an input terminal, which subtracts 2 terminals of the output buffer, and its terminals are connected in common to form an output #, which is transferred to the front stage. 6 11 'The device as described in item 10 of the scope of patent application, wherein the logic switching voltage of the control inverse brake is determined based on the starting voltage of the second NMOS transistor.-12. If applying for a patent The device according to item u of the scope, wherein the control reverse brake is to turn on the second NMOS transistor when the coupling signal reaches the first voltage value to output an isolation control signal belonging to a low potential. 13. The device according to item 12 of the scope of the patent application, wherein the control reverse brake is to close the second NMOS transistor when the coupling signal is below the second voltage value to output a normal high voltage potential. control signal. 14. The device as described in item 13 of the scope of patent application, wherein the pre-stage buffer includes: a system voltage source; 17 this paper size is applicable to China's standard (CNS > A4 specification (2 丨 0x297 mm) (Please read the precautions on the back before filling this page] -Order. 崠! Printed by the Consumers' Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs «. A8 B8 C8 D8 No. 410502 VI. Patent application scope-a ground node; a third PMOS circuit A crystal coupled to the system voltage source; a third NMOS transistor coupled to the ground node; and a control NMOS transistor 'between the third PMMOS transistor and the NMOS transistor to form a series connection; Among them, "the third PMOS transistor and the third NMOS transistor are connected together to form an input terminal, and the drain thereof is connected to form an output terminal for coupling to the input terminal of the output buffer" and the control The gate of the NMOS transistor forms a control terminal, which is coupled to the output terminal of the control back-gate. 15. The device described in item μ of the patent application scope, wherein the front-stage buffer is connected to the control back-gate output. The low potential interval When the control signal is removed, the control NMOS transistor is turned off to isolate the output end of the front-stage buffer from the ground node. 16. The device described in item 5 of the patent application scope, wherein the front-stage buffer is a When the control back gate outputs the normal control signal of the high potential, the NMOS circuit is turned on, so that the front buffer operates normally in the output mode. An I / O f protection device is suitable for multiple power supply voltages, which Including: 1. An output buffer; ☆ -Coupling capacitor 'coupling the output end of the output buffer to its turn-in, so that the output buffer's output shows a lot of power supply voltage — the temple' in its The formation of the wheel-in end—the coupling voltage is reduced by about half of the voltage coupling—-1 ---- r —T11 ------ order ------ line {Please read the precautions on the back before filling (This page) Printed by Shellfish Consumer Cooperative, Central Bureau of Standards, Ministry of Economic Affairs 410502 Patent application scope number; when the "=" sign and when the light-on signal is below-less than the 8th-control signal value, 'output a normal control signal; and the brother of the value-voltage two and buffer' which The output terminal is connected to the input buffer of the output buffer, and a control transistor is connected in series. The output of the control transistor is controlled by the reverse brake. The control transistor system is closed when it receives the signal. The output terminal of the front-stage buffer and the receiver I are turned on when receiving the normal control signal, so that the front-stage buffer operates normally. For example, the device described in claim 7 of the patent scope, wherein the first voltage value is a half of the high value of the multiple power supply voltage. 19. The device according to item 8 of the scope of patent application, wherein the second voltage value is a half of the low value of the multi-source voltage. ------ ^-^ ------ Order ------ 4 * 1 (Please read the notes on the back before filling in this page) Printed by the Staff Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 19 This paper size applies the Chinese national standard (CNS > A4 is now standard (210X297 公 #)