CN1373513A - Voltage control element for preventing electrostatic discharge and its protecting circuit - Google Patents

Abstract

A electrostatic discharge (ESD) protecting element and its relative circuit is suitable for IC. It is coupled between the first and the second connection pads. When said IC is turned on, a bias voltage generated by a bias generator is applied to it to turn off it. When said IC is turned off, the protecting element is always in on state, releasing the current generated by ESD event on the first and the second connection pads.

Description

Be applicable to the voltage controlled element and the protective circuit thereof of electrostatic discharge protective

The invention relates to a kind of static discharge (electrostatic discharge, ESD) protective element with and relevant ESD protection circuit and ESD guard system.

With the progress of work process technique, the tolerance of ESD has been that (integratedcircuit, reliability IC) needs one of main problem of considering to integrated circuit.Especially the manufacture of semiconductor technology enters the deep-submicron epoch after (deep submicron regime), gate oxide, lightly doped drain electrode structure (lightly-doped drain that the transistor of minification (scaled-down), more shallow doping connect the face degree of depth, approach, LDD), shallow isolating trough (shallow trenchisolation, ST1) processing procedure and metal silicide (salicide) processing procedure etc. all is the comparison fragility for ESD stress.Therefore, just the ESD protection circuit must be set, avoid suffering ESD to damage in order to the element among the protection 1C at the port,input-output of IC.

Figure 1A is an existing DSD protection circuit, is to use a NMOS (N-type Metaloxide semiconductor transistor) NE as main ESD protective element.Grid and the source electrode of NE join.Figure 1B is the voltage-current curve figure of the nmos pass transistor among Figure 1A.Because NE is a heavier-duty (enhance-mode) NMOS, when general normal running, NE is a closed condition, enters internal circuit 12 so extraneous telecommunication signal can be gone into (lnput/output) joint sheet 10 by output.When one being that the esd event of positive pulse is when betiding N/O joint sheet 10 with respect to VSS, the drain voltage of NE surpasses trigger voltage Vtrig, be the drain electrode (drain) of NE and the face that the connects breakdown voltage between the substrate (substrate), triggered the two junction transistors that parasitize among the NE.Before the element in ESD stress rupture internal circuit, discharge the ESD electric current.

Yet via general CMOS processing procedure manufacturing, the face that the connects breakdown voltage between the drain electrode of NMOS and the base stage is usually up to more than 10 volts.So high voltage all is insufferable for the produced gate insulator of advanced person's processing procedure.Therefore, how to reduce the major subjects that trigger voltage Vtrig just becomes this type of ESD protection circuit.

Fig. 2 A and Fig. 2 B are two existing NMOS generalized sections that have than low trigger voltage.Utilize ion to inject, under the N+ of source electrode and drain electrode doped region, form a collapse trigger layer (20 or 22).The purpose of collapse trigger layer (20 or 22) is to form one and meets the PN that face collapses more easily with respect to script N+ doped layer 16 and P type substrate 18 formed PN and connect face, has just reduced the breakdown voltage of the drain electrode of NMOS to base stage.So, can quicken to parasitize the opening time of the BJT of NMOS, the element in the internal circuit of having avoided the ESD stress rupture.

Existing ESD protection circuit also has utilization SCR to be used as main ESD protective element.SCR presents closing state when general operating state.When esd event took place, SCR just can be triggered and discharge the ESD electric current.And how to reduce the trigger voltage Vt of SCR, often also being to use SCR is the major subjects of protective element.

The objective of the invention is to propose a kind of voltage controlled element and protective circuit thereof that is applicable to electrostatic discharge protective, the voltage controlled element of this electrostatic discharge protective and protective circuit thereof can need not be considered the problem of the trigger voltage that existing ESD protective element will be faced fully.

Another object of the present invention is to propose a kind of voltage controlled element and protective circuit thereof that is applicable to electrostatic discharge protective; the voltage controlled element of this electrostatic discharge protective with and interlock circuit make the joint sheet of whole integrated circuit, all can obtain good ESD protection.

Purpose of the present invention can reach by following measure:

A kind of voltage controlled element that is applicable to electrostatic discharge protective, be applicable to an integrated circuit, be coupled between one first joint sheet and one second joint sheet, when a working power is supplied with this ic power, this protective element presents closed condition, when this working power was not supplied with this ic power, this protective element presented the maintenance conducting state, can discharge to betide the electric current that the electrostatic discharge event between this first joint sheet and this second joint sheet is produced.

A kind of protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective is connected between one first joint sheet and one second joint sheet, includes:

One protecting component for electrostatic discharge is connected between this first joint sheet and this second joint sheet; And

One bias generator when a working power provides this ic power, presents closed condition in order to control this electrostatic protection element;

Wherein, when this working power did not provide this integrated circuit, this electrostatic protection element was an opening, can discharge to betide between this first joint sheet and this second joint sheet-electric current that electrostatic discharge event produced.

A kind of protection system that is applicable to the voltage controlled element of electrostatic discharge protective is applicable to an integrated circuit, and this integrated circuit includes a plurality of joint sheet Pad1 ... padN, this guard system includes:

One static discharge bus bar (static discharge bus line);

A plurality of protecting component for electrostatic discharge D1 ... DN, each protecting component for electrostatic discharge Dn are connected between a corresponding Padn and this static discharge bus bar; And

One bias generator is when a working power is supplied with this ic power, in order to a predeterminated voltage to be provided, to close N1 ... DN;

Wherein, when this working power is not supplied with this ic power, D1 ... DN presents the maintenance conducting state, can discharge to betide the electric current that the electrostatic discharge event between a padx and the pady is produced.

The present invention has following advantage compared to existing technology:

According to above-mentioned purpose, the present invention proposes a kind of ESD protective element, is applicable to an integrated circuit, is coupled between one first joint sheet and one second joint sheet.When a working power was supplied with this ic power, this protective element presented closed condition.When this working power was not supplied with this ic power, this protective element presented and keeps conducting (always on) state, can discharge to betide between this first joint sheet and this second joint sheet-electric current that esd event produced.

The present invention proposes a kind of ESD protection circuit that is applicable to an integrated circuit in addition, is connected between one first joint sheet and one second joint sheet.This ESD protection circuit includes-an ESD protective element and a bias generator.This ESD protective element is connected between this first joint sheet and this second joint sheet.When a working power provided this ic power, this bias generator presented closed condition in order to control this electrostatic protection element.Opposite, when this integrated circuit was not provided power supply, this electrostatic protection element betided between this first joint sheet and this second joint sheet for opening (always on) state, can discharging-electric current that esd event produced.

The present invention proposes a kind of ESD guard system in addition, is applicable to an integrated circuit.This integrated circuit includes a plurality of joint sheet Pad1 ... padN and a plurality of power supply supply pad.This guard system includes-ESD bus bar (ESD bUS Line), a plurality of ESD protective element D1 ... a DN and a bias generator.Whenever-ESD protective element Dn is connected between a corresponding Padn and this ESD bus bar.When a working power was supplied with this ic power, this bias generator was in order to a predeterminated voltage to be provided, to close D1 ... DN.When this working power is not supplied with this ic power, D1 ... DN presents and keeps conducting (alwaysconductive) state, can discharge to betide the electric current that the esd event between a PadX and the pady is produced.

ESD protective element among the present invention can be P type or N type vague and general formula (deLetion-mode) MOS (metal-oxide-semiconductor) transistor (Metal oxide semiconductor transistor, MOS).

The invention has the advantages that the ESD electric current can discharge by ESD protective element of the present invention easily.When working power was not received integrated circuit as yet, the ESD protective element always presents to be opened or the state of conducting.Therefore, do not having under the state of working power, the ESD electric current can discharge by ESD protective element of the present invention easily.

For above-mentioned purpose of the present invention, feature and advantage can be become apparent, a preferred embodiment cited below particularly, and conjunction with figs. are described in detail below:

Description of drawings

Figure 1A is an existing ESD protection circuit;

Figure 1B is the voltage-current curve figure of the nmos pass transistor among Figure 1A;

Fig. 2 A and Fig. 2 B are two existing NMOS generalized sections that have than low trigger voltage;

Fig. 3 is an ESD protection circuit figure of the present invention;

Fig. 4 A is as the hidden type passage NMOS of ESD protective element of the present invention and the processing procedure signal circle of General N MOS to Fig. 4 C;

Fig. 5 B is utilization elementary (primary) ESD protection circuit of the present invention or secondary (secondary) ESD protection circuit to Fig. 5 C.

Fig. 6 A applies to three embodiment of the ESD protection circuit between I/O joint sheet and the VDD/VSS simultaneously for the present invention to Fig. 6 C;

Fig. 7 is according to the present invention, implements an ESD protection circuit figure with vague and general type PMOS; And

Fig. 8 is an ESD guard system schematic diagram provided by the invention.

Symbol description

Joint sheet 12 internal circuits are gone in 10 outputs

14,32 bias generators

The 18 P type substrates of 16 N+ doped regions

19 ESD protection circuit 20,22 collapse trigger layers of the present invention

24,42 vague and general type NMOS 26 hidden type passages

28 photoresist layers, 30 field oxides

The NMOS element area that 40 ESD bus bars 60 are general

62 vague and general type NMOS element areas

Embodiment:

Fig. 3 is an ESD protection circuit figure of the present invention.ESD protection circuit 19 of the present invention is located in the integrated circuit, and the NMOS DN 24 that includes a vague and general type is as main ESD protective element, and a bias generator 14.The drain electrode of DN 24 and source electrode are coupled to I/O joint sheet 10 and Vss respectively.The grid of DN 24 is subjected to bias generator 14 controls.

When a working power was supplied to integrated circuit, bias generator 14 can produce a voltage that is lower than Vss, is used for closing DN 24.At this moment, the telecommunication signal on the I/O joint sheet 10 just can enter internal circuit 12, operates normally.

When working power was not supplied to integrated circuit, the bias voltage of the grid of DN 24 was 0.Because the critical voltage (threshold voltage) of vague and general type NMOS is to be lower than 0 volt.Therefore, DN 24 always presents the unlatching or the state of conducting.In other words, when not having working power, hung up the resistance of an equivalence between I/O joint sheet 10 and the Vss.Any stress between I/O joint sheet and Vss can make this equivalent resistance produce the conducting electric current.Certain, when esd event, this equivalent resistance more can effectively discharge the ESD electric current, reaches the purpose of protection internal circuit 12.

ND 24 can for the MOS of surface type passage or the MOS of hidden type passage protects ESD, what the MOS of hidden type passage was relative will be reasonable selection, because it has more roomy current lead-through path, the energy that is produced in the time of can more effectively distributing esd event.

Fig. 4 A is as the hidden type passage NMOS of ESD protective element and the processing procedure schematic diagram of General N MOS to Fig. 4 C.Left side one side of something is general NMOS element 60, and right one side of something is a vague and general type NMOS element 62 used in the present invention.In general CMOS processing flow, the ion implantation process of adjusting NMOS critical voltage (Vt) is arranged all.Therefore, employed photoresist layer 28a hides work with the zone 62 of ESD protective element in the time of can utilizing Vt to inject, and injects and ion is carried out in the zone 60 of general NMOS element, shown in Fig. 4 A.Can add one ESD ion implantation process and relevant micro-photographing process in the processing procedure, utilize photoresist layer 28b that general nmos area territory 60 is blocked, ion be carried out in the zone 62 of ESD protective element inject, shown in Fig. 4 B.Afterwards, on the surface of P substrate, form the source/drain electrode of grid structure and LDD structure, make general NMOS and be tending towards complete, shown in Fig. 4 C as the defensive NMOS of ESD.The critical voltage that injection energy in the ESD ion implantation process and concentration can be adjusted the defensive NMOS of ESD with and channel depth.As long as suitable control ESD ion implantation process just can form vague and general formula NMOS and hidden type passage NMOS simultaneously.Shown in Fig. 4 C, the conductive channel 26 of the defensive NMOS of ESD is lived under the surface, so be called hidden type passage NMOS; And general NMOS is surface-type passage NMOS.

Vague and general type NMOS can be used in elementary (primary) ESD protection circuit or secondary (secondary) ESD protection circuit.As Fig. 5 A to shown in Fig. 5 C.

Fig. 5 A is the schematic diagram that vague and general type NMOS of the present invention is used in elementary ESD protection circuit.Elementary ESD protection circuit must be directly coupled to a joint sheet, and the drain electrode of the DN1 among Fig. 5 A is directly coupled to I/O joint sheet 10, and string has a resistance R between I/O joint sheet 10 and the internal circuit 12.When integrated circuit did not connect working power, D1 was a conducting state.During Vss ground connection, no matter be to be the esd pulse of plus or minus on I/O joint sheet 10, the ESD electric current can be discharged by the DN1 of conducting.When integrated circuit connected operating voltage, bias generator 14 provided one to be lower than the negative voltage of Vss to close DN1.Signal on the I/O joint sheet 10 can enter internal circuit 12.

Fig. 5 B is for applying to the present invention in the schematic diagram of secondary ESD protection circuit.Elementary ESD protection circuit is constituted with the heavier-duty NMOS EN1 of a gate coupled to source electrode.Resistance R is connected between I/O joint sheet 10 and the vague and general formula NMOSDN2 as secondary ESD protection circuit.DN2 can share the electric current of some EN1 when esd event, and has extremely low conducting voltage, therefore can more effectively protect internal circuit.

Fig. 5 C is for applying to the present invention simultaneously the schematic diagram of elementary and secondary ESD protection circuit.Elementary ESD protection circuit has used vague and general formula NMOS DN1, and secondary ESD protection circuit has then used vague and general formula NMOS DN2.The grid of DN1 and DN2 all is subjected to bias generator 14 controls, and when guaranteeing that working power provides ic power, DN1 and DN2 close wealthy state.

Except the ESD protection of I/O joint sheet 10 between Vss is provided, identical notion, the present invention also can provide the ESD between I/O joint sheet 10 to VDD and the VSS protection simultaneously.See also Fig. 6 A to Fig. 6 C, Fig. 6 A applies to three embodiments of I/O joint sheet to the ESD protection circuit between VDD and the VSS to Fig. 6 C for the present invention.Vague and general formula NMOSDNH is connected between VDD and the I/O joint sheet 10, and its grid is subjected to the control of bias generator 14.When not having working power, can discharge the ESD electric current between the I/O joint sheet 10 to VDD.When working power was arranged, DNH was a closed condition.

Except using vague and general formula NMOS, the present invention can also use vague and general formula PMOS as the ESD protective element, as shown in Figure 7.The similar Fig. 3 of Fig. 7.Vague and general formula PMOS DPL is connected between I/O joint sheet 10 and the VSS, and its grid is subjected to the control of bias generator 32.The same, when not having the working power power supply, DPL presents the state of conducting, can discharge the ESD electric current.And in working power when power supply, arranged, bias generator 32 provides a voltage that is higher than the ceiling voltage (being generally VDD) of working power, and DPL is closed.

Identical reason, the vague and general formula NMOS among Fig. 5 and Fig. 6 all can change vague and general formula PMOS into.Be bias generator, when the working power power supply was arranged, the voltage that is provided was higher than the voltage of VDD by the voltage that is lower than VSS instead.

Fig. 8 is an ESD guard system schematic diagram provided by the present invention.Integrated circuit includes a plurality of joint sheets, wherein may include output and go into joint sheet I/O1, I/O2 ..., VDD1, VDD2 ..., VSS1, VSS2 ... or the like.The ESD guard system has used an ESD bus bar (bus line) 40.A plurality of vague and general type NMOS DN1-DNn are connected between joint sheet and the ESD bus bar 40.The ESD bus bar generally is with a roomy metal wire, constitutes around whole integrated circuit (IC) wafer, conveniently to be connected to most joint sheet.

For example, when an esd event betided between joint sheet I/O1 and the I/O2, the ESD electric current will discharge by DN1, DN2 and the ESD bus bar that links to each other, with the element in the protection integrated circuit.When the working power normal power supply, the grid of DN1-DNn is all accepted the negative voltage that bias generator 14 produces and is presented closing state.Therefore, each joint sheet can operate normally.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limiting the present invention, anyly has the knack of this skill person, without departing from the spirit and scope of the present invention; when can doing a spot of change and retouching, so protection scope of the present invention is as the criterion when looking the accompanying Claim protection range.

Claims (27)

1. voltage controlled element that is applicable to electrostatic discharge protective, it is characterized in that: be applicable to an integrated circuit, be coupled between one first joint sheet and one second joint sheet, when a working power is supplied with this ic power, this protective element presents closed condition, when this working power was not supplied with this ic power, this protective element presented the maintenance conducting state, can discharge to betide the electric current that the electrostatic discharge event between this first joint sheet and this second joint sheet is produced.

2. the voltage controlled element that is applicable to electrostatic discharge protective as claimed in claim 1, it is characterized in that: wherein, this protective element is to be controlled by a bias generator, when this working power is supplied with this ic power, this bias generator provides a predeterminated voltage, to close this protective element.

3. the voltage controlled element that is applicable to electrostatic discharge protective as claimed in claim 1 is characterized in that: wherein, this protective element is to be a vague and general formula MOS (metal-oxide-semiconductor) transistor.

4. the voltage controlled element that is applicable to electrostatic discharge protective as claimed in claim 3 is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be-hidden type pass element.

5. the voltage controlled element that is applicable to electrostatic discharge protective as claimed in claim 3 is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be a surface-type pass element.

6. the voltage controlled element that is applicable to electrostatic discharge protective as claimed in claim 3 is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be the vague and general formula MOS (metal-oxide-semiconductor) transistor of a N type.

7. the voltage controlled element that is applicable to electrostatic discharge protective as claimed in claim 3 is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be the vague and general formula MOS (metal-oxide-semiconductor) transistor of a P type.

8. protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective is characterized in that: be connected between one first joint sheet and one second joint sheet, include:

One protecting component for electrostatic discharge is connected between this first joint sheet and this second joint sheet; And

One bias generator when a working power provides this ic power, presents closed condition in order to control this electrostatic protection element;

Wherein, when this working power did not provide this integrated circuit, this electrostatic protection element was an opening, can discharge to betide between this first joint sheet and this second joint sheet-electric current that electrostatic discharge event produced.

9. as claim 8 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective; it is characterized in that: wherein; this electrostatic storage deflection (ESD) protection circuit is to be an elementary electrostatic storage deflection (ESD) protection circuit, is directly connected between this first joint sheet and this second joint sheet.

10. as claim 8 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this electrostatic storage deflection (ESD) protection circuit is to be a level DSD protection circuit: by a resistance, be connected to this first joint sheet.

11. as claim 8 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this protecting component for electrostatic discharge is to be a vague and general formula MOS (metal-oxide-semiconductor) transistor.

12. as claim 11 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be a hidden type pass element.

13. as the claim item 11 described protective circuits that are applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be a surface-type pass element.

14. as claim 11 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be the vague and general formula MOS (metal-oxide-semiconductor) transistor of a N type.

15. as claim 14 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective; it is characterized in that: wherein; when this working power is supplied with this ic power; the grid that this bias generator provides a preset negative voltage to give the vague and general formula MOS (metal-oxide-semiconductor) transistor of this N type is to close the vague and general formula MOS (metal-oxide-semiconductor) transistor of this N type.

16. as claim 11 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be the vague and general formula MOS of a P type.

17. as claim 16 a described protective circuit that is applicable to the voltage controlled element of electrostatic discharge protective; it is characterized in that: wherein; when this working power is supplied with this ic power; the grid that this bias generator provides a default positive voltage to give the vague and general formula MOS (metal-oxide-semiconductor) transistor of this P type is to close the vague and general formula MOS (metal-oxide-semiconductor) transistor of this P type.

18. a protection system that is applicable to the voltage controlled element of electrostatic discharge protective is characterized in that: be applicable to an integrated circuit, this integrated circuit includes a plurality of joint sheet Pad1 ... padN, this guard system includes:

One static discharge bus bar (static discharge bus line);

A plurality of protecting component for electrostatic discharge D1 ... DN, each protecting component for electrostatic discharge Dn are connected between a corresponding Padn and this static discharge bus bar; And

One bias generator is when a working power is supplied with this ic power, in order to a predeterminated voltage to be provided, to close N1 ... DN;

Wherein, when this working power is not supplied with this ic power, D1 ... DN presents the maintenance conducting state, can discharge to betide the electric current that the electrostatic discharge event between a padx and the pady is produced.

19. as claim 18 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, Dn is a vague and general formula MOS (metal-oxide-semiconductor) transistor.

20. as claim 19 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be a hidden type pass element.

21. as claim 19 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be a surface-type pass element.

22. as claim 19 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be the vague and general formula MOS (metal-oxide-semiconductor) transistor of a N type.

23. as claim 19 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this vague and general type MOS (metal-oxide-semiconductor) transistor is to be the vague and general formula MOS (metal-oxide-semiconductor) transistor of a P type.

24. as claim 19 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this predeterminated voltage provides to protective element D1 ... the control gate of DN is to close protective element D1 ... DN.

25. as claim 18 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein, this static discharge bus bar is to be a metal wire.

26. as claim 18 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein Padx is a power supply joint sheet.

27. as claim 18 a described protection system that is applicable to the voltage controlled element of electrostatic discharge protective, it is characterized in that: wherein Padx goes into joint sheet for an output.

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