CN1757262A - Hearing aid system - Google Patents

Abstract

An exemplary hearing aid system includes a receiver configured so as to create an insertion loss over the audible range of hearing below about three decibels as compared to the unaided ear. An exemplary hearing aid system also includes one or more of: a micro-receiver positioned in an open-ear configuration within the ear canal of a user; an intermediate connecting portion extending between a sound processing unit and a receiver, wherein the intermediate connecting portion includes a stiffening wire provided on at least a portion of the intermediate connecting portion and/or within or on at least a portion of the receiver; a retaining wire extending from one of the stiffening wire and the receiver, the retaining wire configured to position within a portion of the concha of the ear; an electrical conducting component comprising two wires within distinct channels or otherwise isolated from one another within the intermediate connecting portion; and a speaker, at least partially enclosed within a casing having first and second end portions, the first end portion communicating with the connection, the speaker communicating with a port provided at the second end portion of the casing, wherein the casing is sealed to fluids and wherein the port is sealed to fluids by a membrane or mesh material. The described hearing aid reduces the insertion and occlusion effects relative to comparison devices.

Description

Hearing aid device system

Background technology

There is many hearing aidss unit in the prior art.The hearing aids receiver inserts ear and produces insertion loss, the external ear that its reflection patient is born or intrinsic and the distortion or the elimination of duct sympathetic response feature.Hearing aids of the present invention is provided for eliminating or reducing significantly this insertion loss.

In some hearing aidss, receiver also is positioned at duct in the mode that causes inaccessible influence.As a rule, no matter hearing aids is mounted in and still is placed in the ear back in the ear, all can there be inaccessible problem in the utensil as customization is made.

Because the patient is to the sound discomfort of oneself, repulsion with the patient who amplifies is relevant usually for this.That is to say that inaccessible influence is relevant with patient's consciousness or sensation, this consciousness or feel patient's head " be positioned at barrel bottom ", patient's oneself sound becomes and makes the people insufferable greatly.

The ear mold or the housing that customize the hearing aids of making are inserted the low frequency amplification that can produce the patient's sound between about 20 to 30 decibels in the duct.This loudness of feeling that can be related in the own sound of patient of the actual loudness that approximately is four times in patient's sound increases.

Therefore, still exist in the art avoiding insertion loss recited above and the inaccessible demand that influences the duct receiver of problem.

One aspect of the present invention also relates to the improvement system for the treatment of tinnitus.

Summary of the invention

Hearing aid device system of the present invention overcomes or has alleviated the discussed above of prior art and other shortcoming and deficiency, and it comprises the receiver that is provided for producing compared to the low about three decibels insertion loss of unaided ear in the audiorange of the sense of hearing.

In another embodiment, micro-receiver is positioned at the ear structure (open-ear configuration) of the opening of user's duct, and sound processing unit is away from the micro-receiver setting.Described hearing aids advantageously reduces insertion and inaccessible influence.

In a representational embodiment, receiver has maximum lateral dimension .This size is the maximum overall size or the diameter (but being not to hint that the cross section of receiver must be circle or oval-shaped) of receiver.In a representational embodiment, receiver has the size  less than half of the maximum transverse size of user's duct or diameter.In another embodiment, receiver has less than the maximum transverse size of user's duct or 20% size  of diameter.In another embodiment, receiver has 10% size  less than the maximum transverse size of user's duct or diameter.In another embodiment, receiver has less than the maximum transverse size of user's duct or 5% size  of diameter.

In another representational embodiment, hearing aids comprises sound processing unit, receiver, reaches the middle interconnecting piece between sound processing unit and the receiver, wherein, middle interconnecting piece comprises conductance element and the reinforcement metal silk at least a portion that is arranged on middle interconnecting piece.In another representational embodiment, the reinforcement metal silk comprises stainless steel wire.In another representational embodiment, the reinforcement metal silk comprises the metal or metal alloy with plastic memory, so that this wire can deflection and returned to inceptive direction.Wherein, this can be stainless steel.It can also be marmem.

In another representational embodiment, the reinforcement metal silk be arranged on the part of middle interconnecting piece interior or top and at least a portion of receiver or above extension.In this embodiment, receiver is positioned on the middle interconnecting piece with bigger stability and elasticity.In addition, the use of reinforcing element, middle interconnecting piece and receiver can customize to be made or customization is moulded so that the location optimization of receiver and/or make the location optimization of middle interconnecting piece in the duct.

In another embodiment, the extension of retention wire from reinforcement metal silk and receiver.The retention wire setting is positioned at the part of ear external ear.In this embodiment, retention wire can be provided for preventing that the hearing aids receiver from excessively inserting duct.In addition, retention wire can be provided with in the part that makes the hearing aids receiver be suspended at duct, and therefore, receiver does not contact the side of duct.

In another embodiment, conductance element comprises and is positioned at the two one metal wires different passages of middle interconnecting piece or that otherwise mutually isolate.In another embodiment, it is interior or top and be positioned at the passage different with wire or otherwise isolate mutually with wire that reinforcing element is arranged on middle interconnecting piece.

In another embodiment, receiver comprises the loud speaker that is enclosed at least in part in the overcoat with first and second end, and first end is communicated with middle interconnecting piece, and loud speaker is communicated with the port of the second end that is arranged on overcoat.In another embodiment, be enclosed within outward first end and along the length of the overcoat that extends to the port that is arranged on the second end from first end with respect to fluid seal.Port also can pass through barrier film (membrane) or closely material (mesh material) with respect to fluid seal.

Those of ordinary skill in the art will understand and understand above-mentioned and other feature and advantage of the present invention from following specific descriptions and accompanying drawing.

Brief Description Of Drawings

Referring now to representational accompanying drawing, in these accompanying drawings, identity element uses same label:

Fig. 1 is the skeleton diagram of the representational receiver, middle interconnecting piece and the acoustic processing element connector that are used for hearing aid device system;

Fig. 2 is the profile of representational receiver and middle interconnecting piece;

Fig. 3 is the expansion plane graph of the representational receiver, middle interconnecting piece and the acoustic processing element connector that are used for hearing aid device system;

Fig. 4 is the representational hearing aid device system that comprises the assembling of retention wire;

Fig. 5 is the profile that wears user's ear of hearing aid device system;

Fig. 6 is the plane graph of representational sound processing unit;

Fig. 7 is the plane graph of another representational sound processing unit.

Embodiment

Referring now to Fig. 1, it shows the representational receiver and the connecting portion 10 of hearing aid device system of the present invention.In a representational embodiment, hearing aid device system is set to a wide-open pipeline (COC) system.With reference to Fig. 1, the representational receiver part that illustrates, the label that illustrates is generally 12, comprises the loud speaker 14 that is surrounded by overcoat 16 to small part.Receiver part 12 is attached to connecting portion, and the label that illustrates is generally 18, and it comprises middle interconnecting piece 20 and acoustic processing element connector 22.Sound processing unit connector 22 comprises and is provided for the electrical interface 24 that cooperates with respective electrical interface (not shown) on the sound processing unit.The electrical interface 24 that illustrates is the jack interfaces by three pins (three-pin) of connector shell 26 encirclements.Though the housing 26 that illustrates is two part cases by 28 combinations of snap close pin, what need understanding is that housing 26 can be taked any suitable structure, or interface 24 can only comprise electrical interface 24 so that the profile of housing 26 is minimum or omit housing 26.Alternatively, can dispose microphone 27 on the housing 26.Microphone 27 can be connected to sound processing unit by additional electrical connection (not shown) or by electrical interface 24.

Referring now to Fig. 2, it illustrates in greater detail representational receiver 12 and middle interconnecting piece 20.The loud speaker 14 that illustrates is enclosed in the overcoat 16 at least in part.The representational middle interconnecting piece 20 that illustrates comprises conductance element 30 and the reinforcement metal silk 32 that is provided with along at least a portion of middle interconnecting piece 20.In another representational embodiment, reinforcement metal silk 32 comprises stainless steel wire.In another representational embodiment, reinforcement metal silk 32 comprises the metal or metal alloy with plastic memory, so that wire can deflection and returned to inceptive direction.For example, reinforcement metal silk 32 can be a marmem.

Continuation is with reference to Fig. 2, the representational reinforcement metal silk 32 that illustrates be arranged in the part of middle interconnecting piece 20 or go up and at least a portion of receiver 12 or on extend.Reinforcement metal silk 32 in the representational embodiment that illustrates extends through passage 34 in the middle interconnecting piece 20, enter in the proximal portion 36 of receiver 12 and along by loud speaker 14.In this embodiment, if the reinforcement metal silk is used in any part of receiver 12 and intermediate connector 20 or on, receiver 12 can be with bigger stability and elasticity with respect to middle interconnecting piece 20 location.In addition, the use of reinforcement metal silk 32, middle interconnecting piece 20 and receiver 12 can customize to be made or customization is moulded so that the location optimization of receiver 12 and/or make the location optimization of middle interconnecting piece 20 in the duct.

Continuation is with reference to Fig. 2, and the conductance element 30 that illustrates is arranged in the passage 38 in the middle interconnecting piece 20.Conductance element 30 extends through middle interconnecting piece 20 from loud speaker 14 and arrives electrical interfaces 24 so that being electrically connected between sound processing unit and the loud speaker 14 to be provided.

With reference to Fig. 3, in representational embodiment, conductance element 30 comprises two wires 40,42 that are arranged in the passage 38.Though this embodiment illustrates two one metal wires 40,42 that are arranged in the same passage 38, what need understanding is also to design the structure that other substitutes.For example, two one metal wires 40,42 can be shared same passage with reinforcement metal silk 32.In addition, every one metal wire 40,42 can be arranged in the different passages or in connecting portion the mode with other isolate mutually.

Return with reference to Fig. 2, the representational receiver overcoat that illustrates has first (nearside) end 36 and second (distally) end 44, and first end is communicated with middle interconnecting piece 20, and loud speaker 14 is communicated with the port 46 of the second end 44 that is arranged on overcoat.Representational as shown embodiment is described, and overcoat is 46 circulating loudspeaker settings from middle connecting portion 20 to port.Overcoat 16 is made by the material of impermeability, overcoat 16 first end 36 and along the length of the overcoat 16 that extends to the port 46 that is arranged on the second end 44 from first end 36 with respect to fluid seal.As shown, port 46 itself can pass through barrier film (membrane) or closely material 48 (mesh material) with respect to fluid seal.The material that is used for overcoat can be shaped in a lot of modes, comprises as two housing assemblies, as coating that lid is moulded part (overmold) or as heat shrinkable plastic package (shrinkwrap).Can use any material.In a representational embodiment, material is a polypropylene.In another embodiment, material is nylon or polyethylene.Port also can be permanent or transportable earwax gathering-device.

Continuation is with reference to Fig. 2, and receiver has maximum lateral dimension .This size is the maximum overall size or the diameter (cross section that is not the hint receiver must be circle or oval-shaped) of receiver 16.In a representational embodiment, receiver has the size  less than half of the maximum transverse size of user's duct or diameter.In another embodiment, receiver has 20% size  less than the maximum transverse size of user's duct or diameter.In another embodiment, receiver has 10% size  less than the maximum transverse size of user's duct or diameter.In another embodiment, receiver has 5% size  less than the maximum transverse size of user's duct or diameter.

Referring now to Fig. 4, it shows common label is 50 the second representational hearing aid device system.Receiver 16, middle interconnecting piece 20 and sound processing unit 52 illustrate with the form of assembling.Acoustic processing element connector 22 combines with sound processing unit 52 and illustrates.As shown in the figure, representational retention wire 54 is extended from receiver 16.As shown in Figure 5, retention wire 54 is arranged at ear, and the label that illustrates is generally 58, the part of external ear 56 in.In this embodiment, retention wire 54 can be provided for limiting the maximum that hearing aids receiver 16 inserts in the duct 60.For example, the structure of retention wire 54, receiver 16 and middle interconnecting piece 20 can make receiver extend into duct, but does not enter the zone that bone is arranged 62 of duct 60.Similarly, as shown in Figure 5, retention wire 54 can be provided with in the part that makes hearing aids receiver 16 be suspended at duct 60, and therefore, receiver does not contact the side of duct 60.Though the metal wire 54 that illustrates is to extend from receiver 16, what need understanding is that retention wire 54 also can selectively be extended from middle connecting portion 20.

Referring now to Fig. 6, it shows common label is 52 representational sound processing unit (SPU).The SPU52 that illustrates generally includes shell 64, the SPU electrical interface 66 of amplifier and acoustic processing element 68 is shown and is connected to as the Electric plug with shutter of three pins (three-pin), be connected to the microphone 70 of amplifier and acoustic processing element 68, cell device 72 to amplifier and 68 power supplies of acoustic processing element, switch element 74 and programming connector 78, the switch element 74 that illustrates has the button 76 of the user interface that is provided for amplifier and acoustic processing element 68 and/or cell device 72, programming connector 78 be provided for allowing the external program design of SPU or again programming and/or allow have the expansion of the hearing aid device of additional internal element.Can design correcting switch 79 to allow the programming or the programming again of doctor or user's control amplifier and acoustic processing element 68 by setting program.In addition, can be nearby (or on device Anywhere) input port (not shown) is set with from the programming of external source implement device or programming again.Can be in amplifier and acoustic processing element 68 and/or device in mnemonic is set Anywhere with this programming that allows SPU or programming and/or allow the user again by the different program of user interface selection.

Fig. 7 shows second representational SPU structure, wherein, amplifier and acoustic processing element 68 be set to cell device 72, switch element 74, microphone 70 and SPU electrical interface 66 in the circuit board of each interconnection.

In another representational embodiment, after the ear unit can comprise maybe can adding comprises the sound generator that can be used to produce one or more sound.Can produce sound for the useful particular frequency range of treatment tinnitus.Sound producer is delivered to sort signal the receiver that is used for the treatment of.

Following form has been summarized the statistical analysis of the data that collect (the hearing utensil that G=is common, O=Oticon (Oticon), rich Tyke (Sebotek) of S=plug and V=dimension watt Toon (Vivatone)) in four hearing devices of contrast.The dimension watt Toon device (Vivatone device) of test is according to the above-mentioned embodiment setting that comprises micro-receiver and retention wire.The mode that dimension watt Toon device does not also contact auditory canal wall with receiver is positioned at the cartilage zone of ear.

The common hearing utensil of test is duct-opening-ear (canal-open-earAuriscoe ^TMHearing aids.The Oticon device (Oticon Device) of test is ear (Open Ear) Auriscoe of the opening of low profile ^TMStructure.The rich Tyke device (Sebotek Device) of the plug of test is at United States Patent (USP) the 5th by Reiter, 606, PAC (duct of column auricle (Post Auricular the Canal)) hearing aids of describing in No. 621, the full content of this patent are incorporated in this with as a reference.

30 main bodys are participated in evaluation.Totally 120 tests, 4 of each participants.The data of analyzing are values that the real ear of probe inserts response curve (Probe Real Ear InsertionResponse Curve), the difference between the response curve (Probe Real Ear Aided Response Curve) that this curve is assisted by the unaided response curve of the real ear of probe (Probe Real Ear Unaided Response Curve) and the real ear of probe form and accordingly value when main body is sent out the sound of letter " EE ", repeat.Two kinds of difference can be called plug-in effect (Insertion Effect) and inaccessible influence (Occlusion Effect).The value of 79 kinds of frequencies (with 100 hertz increments from 200 hertz to 8000 hertz) is provided.

Each frequency is carried out the analysis of different models.Relatively adjust according to main body variability, testing sequence and previous device (Previous Device).For the experimental error of plug-in effect in the scope of about 5-11Db and for the experimental error of obturation influence in the about scope of 3-8Db.

List in the comparative result form below.Provide the result of each frequency.Absolute value is included in the table 1 greater than 2.444 T value (T-values).Because unimportant in statistical analysis, the T value less than 2.444 is not analyzed, so they are left in the basket in table 1.Negative value is represented plug-in effect or inaccessible influence to dimension watt Toon device (Vivatone device) comparison comparison means (Comparison Device) greatly.Big on the occasion of expression plug-in effect or inaccessible influence to relatively installing (Comparison Device) comparison dimension watt Toon device (Vivatone device).

Following form has been summarized the comparison under each frequency.Table value is positive or negative decibel difference.As seeing from form, dimension watt Toon device (Vivatone device) shows lower plug-in effect compared to comparison means in whole frequency range.In fact, dimension watt Toon device (Vivatone device) shows less than 3 decibels insertion at whole sound spectrum and loses.In addition, the Oticon device (OticonDevice) within 500 hertz to 1300 hertz scopes, dimension watt Toon device (Vivatone device) shows lower obturation influence compared to comparison means in whole frequency range.

Table 1. general introduction relatively

	Plug-in effect			Inaccessible influence
								G is to V	O is to V	S is to V	G is to V	O is to V	S is to V
200Hz			-28.99			-8.49
							300			-30.56			-7.92
400			-31.14			-7.37
							500			-31.32		+6.57	-7.76
600			-31.74		+9.21	-7.89
							700			-32.60		+11.11	-8.40
800			-33.49		+11.64	-8.78

	Plug-in effect			Inaccessible influence
								G is to V	O is to V	S is to V	G is to V	O is to V	S is to V
900			-34.11		+10.63	-8.82
							1000			-34.83		+8.72	-9.08
1100			-34.78		+6.89	-9.96
							1200			-34.56		+6.32	-10.39
1300		-7.51	-35.38		+5.32	-11.09
							1400		-9.01	-36.61			-13.28
1500		-10.52	-37.15			-14.66
							1600		-11.47	-37.44			-15.02
1700		-12.37	-37.60			-15.04
							1800		-13.49	-37.72			-16.76
1900		-14.87	-38.18			-18.98
							2000		-16.20	-38.48			-20.61
2100		-17.24	-38.52		-6.98	-22.09
							2200	-6.88	-18.09	-38.29		-9.35	-23.23
2300	-7.70	-18.77	-38.02		-11.71	-24.65
							2400	-8.49	-19.35	-37.57	-6.91	-14.08	-26.09
2500	-9.21	-19.82	-36.83	-7.89	-15.51	-26.73
							2600	-9.67	-20.14	-35.83	-8.04	-15.52	-25.94
2700	-9.84	-20.29	-34.44	-7.61	-14.96	-24.63
							2800	-9.86	-20.28	-33.03	-7.51	-14.66	-23.71
2900	-9.86	-20.15	-31.52	-7.54	-14.36	-23.26
							3000	-9.79	-20.02	-30.26	-7.48	-14.06	-22.09

	Plug-in effect			Inaccessible influence
								G is to V	O is to V	S is to V	G is to V	O is to V	S is to V
3100	-9.66	-19.90	-28.93	-7.06	-13.56	-20.71
							3200	-9.51	-19.81	-27.73	-7.16	-13.49	-19.07
3300	-9.28	-19.66	-26.57	-7.31	-13.46	-17.75
							3400	-9.07	-19.56	-25.57	-7.23	-13.07	-16.73
3500	-8.91	-19.45	-24.82	-7.37	-12.90	-15.77
							3600	-8.69	-19.34	-24.16	-6.96	-12.01	-14.66
3700	-8.58	-19.31	-23.74	-6.53	-11.36	-13.51
							3800	-8.44	-19.34	-23.46	-6.28	-10.75	-12.41
3900	-8.27	-19.37	-23.23	-6.05	-9.99	-11.55
							4000	-8.09	-19.28	-23.03	-5.47	-9.21	-10.84
4100	-7.88	-19.27	-22.69	-5.23	-8.37	-10.11
							4200	-7.65	-19.21	-22.26	-5.11	-7.56	-9.52
4300	-7.39	-19.18	-21.77	-4.90	-6.78	-8.75
							4400	-7.15	-19.24	-21.18	-4.87	-6.07	-8.16
4500	-6.85	-19.34	-20.58	-4.95	-5.52	-7.89
							4600	-6.54	-19.37	-19.95	-4.58	-4.86	-7.36
4700	-6.25	-19.49	-19.32	-4.28	-4.32	-6.82
							4800	-5.95	-19.33	-18.65	-3.64	-3.69	-6.10
4900	-5.70	-19.10	-18.04	-3.01	-3.04	-5.42
							5000	-5.42	-18.71	-17.37		-2.58	-4.73
5100	-5.13	-18.18	-16.68			-4.30
							5200	-4.85	-17.48	-15.99			-3.74

	Plug-in effect			Inaccessible influence
								G is to V	O is to V	S is to V	G is to V	O is to V	S is to V
5300	-4.64	-16.81	-15.43			-3.32
							5400		-16.01	-14.83			-3.14
5500		-15.18	-14.40			-3.05
							5600		-14.42	-14.20			-2.76
5700		-13.57	-14.19			-2.82
							5800		-12.90	-14.30			-3.04
5900		-12.24	-14.66			-3.09
							6000		-11.64	-15.01			-2.87
6100		-11.03	-15.24			-2.84
							6200		-10.50	-15.60			-2.62
6300		-9.93	-15.85
							6400		-9.47	-16.12
6500		-9.04	-16.43			-2.53
							6600		-8.68	-16.76			-2.75
6700		-8.40	-17.02	-2.41		-2.93
							6800		-8.14	-17.38	-2.50		-3.00
6900		-7.86	-17.57	-2.94		-3.20
							7000	-5.37	-7.62	-17.64	-3.10		-3.04
7100	-5.98	-7.41	-17.93	-2.93		-2.85
							7200	-6.54	-7.29	-18.20	-2.85		-2.98
7300	-6.76	-7.08	-18.29	-2.83		-3.10
							7400	-6.83	-6.91	-18.37			-2.88

	Plug-in effect			Inaccessible influence
								G is to V	O is to V	S is to V	G is to V	O is to V	S is to V
7500	-6.67	-6.68	-18.48			-2.78
							7600	-6.45	-6.52	-18.43			-2.58
7700	-6.18	-6.29	-18.28
							7800	-6.06	-6.19	-18.22
7900	-6.01	-6.17	-18.20
							8000	-5.99	-6.23	-18.25

The result of table 2.200 hertz

200 hertz

Plug-in effect

Value standard error t. value

X1-3.228805324 2.8128462-1.147878383 (common) to dimension watt Toon

X2-3.973763109 2.6132138-1.520642189 (Oticon is to dimension watt Toon)

(the rich Tyke of plug is to Wei Watuo for X3-28.990360956 2.6890912-10.780728129

Grace)

Inaccessible influence

Value standard error t. value

X1 -1.76124202 2.3527289 -0.74859539

X2 3.03270998 2.1857518 1.38749056

X3 -8.48537631 2.2492174 -3.77259056

The result of table 3.300 hertz

300 hertz

Plug-in effect

Value standard error t. value

X1 -3.259075564 2.9386512 -1.109037917

X2 -3.984400433 2.7300902 -1.459439139

X3 -30.557774712 2.8093612 -10.877125620

Inaccessible influence

Value standard error t. value

X1 -1.34258739 2.4706214 -0.54342093

X2 3.70308746 2.2952773 1.61335081

X3 -7.91842555 2.3619231 -3.35253321

The result of table 4.400 hertz

400 hertz

Plug-in effect

Value standard error t. value

X1 -3.18071721 2.9913629 -1.06330036

X2 -3.71440204 2.7790608 -1.33656738

X3 -31.13784296 2.8597538 -10.88829507

Inaccessible influence

Value standard error t. value

X1 -0.97685416 2.5694950 -0.3801736

X2 4.68242198 2.3871337 1.9615248

X3 -7.36959617 2.4564466 -3.00010500

The result of table 5.500 hertz

500 hertz

Plug-in effect

Value standard error t. value

X1 -3.06639030 3.0294176 -1.01220456

X2 -3.35011711 2.8144148 -1.19034237

X3 -31.31511356 2.8961342 -10.81272859

Inaccessible influence

Value standard error t. value

X1 -0.42304814 2.5993905 -0.16274897

X2 6.57442272 2.4149074 2.72243260

X3 -7.76226106 2.4850268 -3.12361260

The result of table 6.600 hertz

600 hertz

Plug-in effect

Value standard error t. value

X1 -2.8099533318 3.1302318 -0.897682188

X2 -2.9480594700 2.9080740 -1.013749811

X3 -31.7421838724 2.9925130 -10.607200022

Inaccessible influence

Value standard error t. value

X1 1.04164510 2.4705285 0.4216284

X2 9.21450274 2.2951910 4.0146998

X3 -7.89446530 2.3618343 -3.3425145

The result of table 7.700 hertz

700 hertz

Plug-in effect

Value standard error t. value

X1 -2.588272854 3.2245678 -0.80267279

X2 -2.847366146 2.9957148 -0.95047970

X3 -32.604172820 3.0826986 -10.57650368

Inaccessible influence

Value standard error t. value

X1 1.889389684 2.2700032 0.83232909

X2 11.110529893 2.1088973 5.26840739

X3 -8.402816196 2.1701313 -3.87203123

The result of table 8.800 hertz

800 hertz

Plug-in effect

Value standard error t. value

X1 -2.515782392 3.3 207934 -0.757584738

X2 -3.398601005 3.0851111 -1.101613808

X3 -33.491112358 3.1746906 -10.549409992

Inaccessible influence

Value standard error t. value

X1 1.82698457 2.2246681 0.8212392

X2 11.63631424 2.0667796 5.6301669

X3 -8.77668112 2.1267908 -4.1267252

The result of table 9.900 hertz

900 hertz

Plug-in effect

Value standard error t. value

X1 -2.38554234 3.3949516 -0.70267345

X2 -4.09229805 3.1540062 -1.29749208

X3 -34.11309345 3.2455861 -10.51061120

Inaccessible influence

Value standard error t. value

X1 1.92054270 2.1612333 0.88863274

X2 10.62901086 2.0078470 5.29373549

X3 -8.81972030 2.0661469 -4.26868009

The result of table 10.1000 hertz

1000 hertz

Plug-in effect

Value standard error t. value

X1 -2.275590447 3.3148820 -0.686477055

X2 -4.883197416 3.0796193 -1.585649707

X3 -34.827767987 3.1690393 -10.990008326

Inaccessible influence

Value standard error t. value

X1 1.90850033 2.0273877 0.94135935

X2 8.71736528 1.8835006 4.62827855

X3 -9.08163181 1.9381900 -4.68562518

The result of table 11.1100 hertz

1100 hertz

Plug-in effect

Value standard error t. value

X1 -2.156384500 3.2283746 -0.66794743

X2 -6.075641257 2.9992514 -2.02571923

X3 -34.777147774 3.0863378 -11.26809495

Inaccessible influence

Value standard error t. value

X1 0.652209894 1.9516141 0.33418998

X2 6.892687975 1.8131048 3.80159378

X3 -9.956084782 1.8657502 -5.33623669

The result of table 12.1200 hertz

1200 hertz

Plug-in effect

Value standard error t. value

X1 -1.585101698 3.1910179 -0.496738573

X2 -6.880732089 2.9645460 -2.321006989

X3 -34.561124381 3.0506248 -11.329195525

Inaccessible influence

Value standard error t. value

X1 0.1712529167 1.9293266 0.088763052

X2 6.3227648043 1.7923991 3.527543026

X3 -10.3896722765 1.8444433 -5.632958487

The result of table 13.1300 hertz

1300 hertz

Plug-in effect

Value standard error t. value

X1 -1.1981154661 3.1078549 -0.385512034

X2 -7.5105809960 2.8872852 -2.601260486

X3 -35.3762012491 2.9711206 -11.906686397

Inaccessible influence

Value standard error t. value

X1 1.2358134856 1.8298857 0.675350090

X2 5.3236175161 1.7000157 3.131510866

X3 -11.0905638474 1.7493774 -6.339720527

The result of table 14.1400 hertz

1400 hertz

Plug-in effect

Value standard error t. value

X1 -1.643093468 3.2026055 -0.51304897

X2 -9.006829511 2.9753112 -3.02718902

X3 -36.606739445 3.0617025 -11.95633446

Inaccessible influence

Value standard error t. value

X1 1.218719994 1.7929210 0.67973995

X2 3.569212245 1.6656744 2.14280315

X3 -13.277066609 1.7140390 -7.74607050

The result of table 15.1500 hertz

1500 hertz

Plug-in effect

Value standard error t. value

X1 -2.004330563 3.3559284 -0.597250692

X2 -10.520911903 3.1177525 -3.374517947

X3 -37.149067713 3.2082798 -11.579123521

Inaccessible influence

Value standard error t. value

X1 1.565644363 1.9150221 0.81755941

X2 3.037305910 1.7791098 1.70720543

X3 -14.661208291 1.8307681 -8.00822785

The result of table 16.1600 hertz

1600 hertz

Plug-in effect

Value standard error t. value

X1 -1.951098286 3.2915707 -0.59275600

X2 -11.474827775 3.0579624 -3.75244240

X3 -37.443659502 3.1467536 -11.89913947

Inaccessible influence

Value standard error t. value

X1 2.19998543 2.0883350 1.05346387

X2 2.69222085 1.9401223 1.38765520

X3 -15.01898313 1.9964558 -7.52282265

The result of table 17.1700 hertz

1700 hertz

Plug-in effect

Value standard error t. value

X1 -2.09200068 3.1519854 -0.66370887

X2 -12.37275620 2.9282837 -4.22525864

X3 -37.59666754 3.0133095 -12.47686870

Inaccessible influence

Value standard error t. value

X1 2.296444502 2.1572750 1.06451169

X2 2.044449766 2.0041696 1.02009817

X3 -15.035410954 2.0623628 -7.29038120

The result of table 18.1800 hertz

1800 hertz

Plug-in effect

Value standard error t. value

X1 -2.7841781655 3.0546323 -0.911460998

X2 -13.4911317442 2.8378399 -4.754014423

X3 -37.7204275127 2.9202396 -12.916894941

Inaccessible influence

Value standard error t. value

X1 1.299973079 2.2825012 0.56953884

X2 0.228669495 2.1205082 0.10783712

X3 -16.763530564 2.1820794 -7.68236495

The result of table 19.1900 hertz

1900 hertz

Plug-in effect

Value standard error t. value

X1 -3.92267763 2.9833070 -1.31487560

X2 -14.86697694 2.7715767 -5.36408636

X3 -38.18257655 2.8520524 -13.38775431

Inaccessible influence

Value standard error t. value

X1 -0.445001551 2.4921416 -0.17856191

X2 -2.149696858 2.3152701 -0.92848642

X3 -18.984168789 2.3824964 -7.96818358

The result of table 20.2000 hertz

2000 hertz

Plug-in effect

Value standard error t. value

X1 -5.07137477 2.8884821 -1.755723078

X2 -16.19593588 2.6834817 -6.035418726

X3 -38.47923896 2.7613994 -13.934687726

Inaccessible influence

Value standard error t. value

X1 -1.85628537 2.4314096 -0.76346057

X2 -4.57822019 2.2588484 -2.02679391

X3 -20.60848494 2.3244365 -8.86601350

The result of table 21.2100 hertz

2100 hertz

Plug-in effect

Value standard error t. value

X1 -6.05449479 2.8084770 -2.15579289

X2 -17.24123089 2.6091547 -6.60797572

X3 -38.52172601 2.6849143 -14.34746975

Inaccessible influence

Value standard error t. value

X1 -2.98680095 2.4258921 -1.2312176

X2 -6.98416480 2.2537225 -3.0989462

X3 -22.09045009 2.3191617 -9.5251876

The result of table 22.2200 hertz

2200 hertz

Plug-in effect

Value standard error t. value

X1 -6.880641275 2.7399735 -2.51120723

X2 -18.094100656 2.5455130 -7.10823348

X3 -38.294583408 2.6194246 -14.61946370

Inaccessible influence

Value standard error t. value

X1 -4.04732286 2.3505212 -1.72188312

X2 -9.35005881 2.1837008 -4.28174902

X3 -23.23487105 2.2471069 -10.33990481

The result of table 23.2300 hertz

2300 hertz

Plug-in effect

Value standard error t. value

X1 -7.702143365 2.7076991 -2.84453441

X2 -18.774332728 2.5155292 -7.46337303

X3 -38.024411656 2.5885702 -14.68934905

Inaccessible influence

Value standard error t. value

X1 -5.220130253 2.2482925 -2.32181990

X2 -11.708355563 2.0887274 -5.60549718

X3 -24.646487441 2.1493758 -11.46681163

The result of table 24.2400 hertz

2400 hertz

Plug-in effect

Value standard error t. value

X1 -8.486673413 2.6869395 -3.15849066

X2 -19.349755107 2.4962429 -7.75155131

X3 -37.572817183 2.5687240 -14.62703571

Inaccessible influence

Value standard error t. value

X1 -6.906049894 2.1583519 -3.199686766

X2 -14.081049900 2.0051700 -7.022372074

X3 -26.086046643 2.0633922 -12.642311144

The result of table 25.2500 hertz

2500 hertz

Plug-in effect

Value standard error t. value

X1 -9.210748358 2.6528782 -3.471983194

X2 -19.817120519 2.4645989 -8.040708038

X3 -36.833570981 2.5361612 -14.523355801

Inaccessible influence

Value standard error t. value

X1 -7.8887912841 2.1296325 -3.704296963

X2 -15.5096824184 1.9784889 -7.839155515

X3 -26.7269510910 2.0359364 -13.127596011

The result of table 26.2600 hertz

2600 hertz

Plug-in effect

Value standard error t. value

X1 -9.66555736 2.6025828 -3.71383279

X2 -20.13716999 2.4178731 -8.32846424

X3 -35.82550481 2.4880786 -14.39886359

Inaccessible influence

Value standard error t. value

X1 -8.039373e+000 2.0445271 -3.9321428795

X2 -1.552271e+001 1.8994236 -8.1723244632

X3 -2.594425e+001 1.9545753 -13.2736008791

The result of table 27.2700 hertz

2700 hertz

Plug-in effect

Value standard error t. value

X1 -9.8422402627 2.4996242 -3.937488045

X2 -20.2943035971 2.3222216 -8.739175965

X3 -34.4411171164 2.3896498 -14.412621118

Inaccessible influence

Value standard error t. value

X1 -7.613859887 1.9209320 -3.963627961

X2 -14.957610998 1.7846003 -8.381490995

X3 -24.625003741 1.8364180 -13.409258493

The result of table 28.2800 hertz

2800 hertz

Plug-in effect

Value standard error t. value

X1 -9.86365196 2.3996114 -4.1105206

X2 -20.27641387 2.2293069 -9.0953891

X3 -33.03347336 2.2940372 -14.3997113

Inaccessible influence

Value standard error t. value

X1 -7.50588772 1.8590431 -4.0375006

X2 -14.65670749 1.7271037 -8.4862926

X3 -23.70698104 1.7772520 -13.3391220

The result of table 29.2900 hertz

2900 hertz

Plug-in effect

Value standard error t. value

X1 -9.86079168 2.2699771 -4.34400497

X2 -20.15133560 2.1088730 -9.55549987

X3 -31.52307174 2.1701063 -14.52604933

Inaccessible influence

Value standard error t. value

X1 -7.543366871 1.8062716 -4.17620855

X2 -14.359771755 1.6780775 -8.55727583

X3 -23.256473650 1.7268022 -13.46794292

The result of table 30.3000 hertz

3000 hertz

Plug-in effect

Value standard error t. value

X1 -9.7856477447 2.1508276 -4.549712685

X2 -20.0236465366 1.9981798 -10.020943400

X3 -30.2576796218 2.0561990 -14.715345668

Inaccessible influence

Value standard error t. value

X1 -7.47719814 1.74153648 -4.29344904

X2 -14.06177565 1.61793672 -8.69117777

X3 -22.09160667 1.66491522 -13.26890791

The result of table 31.3100 hertz

3100 hertz

Plug-in effect

Value standard error t. value

X1 -9.664299909 2.0441730 -4.727730813

X2 -19.902779737 1.8990947 -10.480140962

X3 -28.927085690 1.9542369 -14.802241273

Inaccessible influence

Value standard error t. value

X1 -7.058142664 1.68138544 -4.197813587

X2 -13.560497213 1.56205470 -8.681192285

X3 -20.712909615 1.60741060 -12.885885895

The result of table 32.3200 hertz

3200 hertz

Plug-in effect

Value standard error t. value

X1 -9.510894160 1.95211516 -4.87200583

X2 -19.806347612 1.8136042 -10.92098708

X3 -27.726410309 1.8662641 -14.85663835

Inaccessible influence

Value standard error t. value

X1 -7.163145949 1.64523049 -4.353885967

X2 -13.488540806 1.52846573 -8.824889289

X3 -19.070659369 1.57284634 -12.124934858

The result of table 33.3300 hertz

3300 hertz

Plug-in effect

Value standard error t. value

X1 -9.2786068378 1.8838049 -4.925460512

X2 -19.6593344393 1.7501081 -11.233211221

X3 -26.5719530600 1.8009244 -14.754619026

Inaccessible influence

Value standard error t. value

X1 -7.31237040 1.66005982 -4.40488366

X2 -13.45522787 1.54224259 -8.72445614

X3 -17.74897246 1.58702323 -11.18381389

The result of table 34.3400 hertz

3400 hertz

Plug-in effect

Value standard error t. value

X1 -9.066209111 1.8323300 -4.94791271

X2 -19.556815995 1.7022865 -11.48855723

X3 -25.574072634 1.7517142 -14.59945508

Inaccessible influence

Value standard error t. value

X1 -7.23388315 1.70948608 -4.2316128

X2 -13.07226920 1.58816098 -8.2310731

X3 -16.72753874 1.63427491 -10.2354498

The result of table 35.3500 hertz

3500 hertz

Plug-in effect

Value standard error t. value

X1 -8.91013789 1.7886133 -4.98158981

X2 -19.45460034 1.6616724 -11.70784323

X3 -24.81692370 1.7099208 -14.51349273

Inaccessible influence

Value standard error t. value

X1 -7.3687376481 1.76527541 -4.174270831

X2 -12.8957066864 1.63999085 -7.863279640

X3 -15.7692838620 1.68760971 -9.344153291

The result of table 36.3600 hertz

3600 hertz

Plug-in effect

Value standard error t. value

X1 -8.691367288 1.7763295 -4.89288013

X2 -19.342423503 1.6502604 -11.72083106

X3 -24.157524195 1.6981775 -14.22555931

Inaccessible influence

Value standard error t. value

X1 -6.962227987 1.76558948 -3.94328809

X2 -12.008873432 1.64028264 -7.32122206

X3 -14.662004950 1.68790997 -8.68648519

The result of table 37.3700 hertz

3700 hertz

Plug-in effect

Value standard error t. value

X1 -8.583079332 1.76270385 -4.86926908

X2 -19.313847560 1.63760180 -11.79398287

X3 -23.737175524 1.68515129 -14.08607978

Inaccessible influence

Value standard error t. value

X1 -6.5337475500 1.74265157 -3.749313783

X2 -11.3626632173 1.61897267 -7.018440431

X3 -13.5120469265 1.66598124 -8.110563666

The result of table 38.3800 hertz

3800 hertz

Plug-in effect

Value standard error t. value

X1 -8.441467426 1.75635543 -4.80624097

X2 -19.336107428 1.63170394 -11.85025478

X3 -23.463879959 1.67908218 -13.97422961

Inaccessible influence

Value standard error t. value

X1 -6.278133968 1.68496687 -3.72596880

X2 -10.754862789 1.56538194 -6.87044005

X3 -12.412324737 1.61083445 -7.70552474

The result of table 39.3900 hertz

3900 hertz

Plug-in effect

Value standard error t. value

X1 -8.270799727 1.76899901 -4.67541231

X2 -19.372231987 1.64345018 -11.78753833

X3 -23.226956475 1.69116949 -13.73425708

Inaccessible influence

Value standard error t. value

X1 -6.04925683 1.66204356 -3.6396500

X2 -9.99092084 1.54408554 -6.4704452

X3 -11.55100361 1.58891969 -7.2697215

The result of table 40.4000 hertz

4000 hertz

Plug-in effect

Value standard error t. value

X1 -8.086843450 1.72954953 -4.67569348

X2 -19.275861670 1.60680050 -11.99642501

X3 -23.027648032 1.65345564 -13.92698265

Inaccessible influence

Value standard error t. value

X1 -5.468606286 1.53347467 -3.56615364

X2 -9.213260489 1.42464140 -6.46707337

X3 -10.842963904 1.46600737 -7.39625472

The result of table 41.4100 hertz

4100 hertz

Plug-in effect

Value standard error t. value

X1 -7.881860321 1.70361988 -4.62653695

X2 -19.265070702 1.58271112 -12.17219647

X3 -22.687028158 1.62866680 -13.92981556

Inaccessible influence

Value standard error t. value

X1 -5.234017037 1.44847923 -3.613456733

X2 -8.367227067 1.34567823 -6.217851237

X3 -10.113523797 1.38475142 -7.303494094

The result of table 42.4200 hertz

4200 hertz

Plug-in effect

Value standard error t. value

X1 -7.650776971 1.67932983 -4.55585129

X2 -19.207194367 1.56014498 -12.31115996

X3 -22.260182017 1.60544543 -13.86542428

Inaccessible influence

Value standard error t. value

X1 -5.1074935588 1.37868912 -3.704601341

X2 -7.5586894898 1.28084124 -5.901347685

X3 -9.5194610061 1.31803181 -7.222481964

The result of table 43.4300 hertz

4300 hertz

Plug-in effect

Value standard error t. value

X1 -7.390373789 1.65707945 -4.45987897

X2 -19.182103586 1.53947374 -12.46016937

X3 -21.767082631 1.58417398 -13.74033587

Inaccessible influence

Value standard error t. value

X1 -4.8960648158 1.30757620 -3.744382017

X2 -6.7790754700 1.21477533 -5.580517913

X3 -8.7460200811 1.25004761 -6.996549598

The result of table 44.4400 hertz

4400 hertz

Plug-in effect

Value standard error t. value

X1 -7.146230694 1.63780680 -4.36329284

X2 -19.243600045 1.52156891 -12.64720903

X3 -21.178776976 1.56574926 -13.52628895

Inaccessible influence

Value standard error t. value

X1 -4.87065603 1.25303258 -3.88709449

X2 -6.06657954 1.16410275 -5.21137805

X3 -8.16174608 1.19790370 -6.81335742

The result of table 45.4500 hertz

4500 hertz

Plug-in effect

Value standard error t. value

X1 -6.847453349 1.63031020 -4.20009231

X2 -19.340813305 1.51460436 -12.76954819

X3 -20.581624580 1.55858249 -13.20534829

Inaccessible influence

Value standard error t. value

X1 -4.952060307 1.20193410 -4.12007640

X2 -5.516111259 1.11663082 -4.93995971

X3 -7.888428986 1.14905337 -6.86515456

The result of table 46.4600 hertz

4600 hertz

Plug-in effect

Value standard error t. value

X1 -6.536781665 1.63166742 -4.00619732

X2 -19.370563786 1.51586525 -12.77855257

X3 -19.946411210 1.55987999 -12.78714471

Inaccessible influence

Value standard error t. value

X1 -4.583931130 1.20319291 -3.80980565

X2 -4.866591929 1.11780029 -4.35372220

X3 -7.363325177 1.15025680 -6.40146201

The result of table 47.4700 hertz

4700 hertz

Plug-in effect

Value standard error t. value

X1 -6.247439739 1.64057349 -3.80808282

X2 -19.485709545 1.52413924 -12.78473056

X3 -19.320813101 1.56839423 -12.31884990

Inaccessible influence

Value standard error t. value

X1 -4.277111412 1.20635740 -3.54547616

X2 -4.319781388 1.12074019 -3.85440034

X3 -6.818258071 1.15328207 -5.91204726

The result of table 48.4800 hertz

4800 hertz

Plug-in effect

Value standard error t. value

X1 -5.9496237669 1.65009622 -3.605622326

X2 -19.3341460166 1.53298612 -12.612081555

X3 -18.6504311493 1.57749799 -11.822792342

Inaccessible influence

Value standard error t. value

X1 -3.63533451 1.19702245 -3.03698108

X2 -3.68529686 1.11206776 -3.31391396

X3 -6.10429061 1.14435781 -5.33424995

The result of table 49.4900 hertz

4900 hertz

Plug-in effect

Value standard error t. value

X1 -5.69900795 1.67201132 -3.40847449

X2 -19.09922740 1.55334588 -12.29554066

X3 -18.04055946 1.59844891 -11.28629094

Inaccessible influence

Value standard error t. value

X1 -3.007209843 1.15216066 -2.61006121

X2 -3.037454396 1.07038989 -2.83770842

X3 -5.416608544 1.10146978 -4.91761883

The result of table 50.5000 hertz

5000 hertz

Plug-in effect

Value standard error t. value

X1 -5.42096921 1.69550964 -3.19725060

X2 -18.70751384 1.57517648 -11.87645583

X3 -17.36767314 1.62091338 -10.71474474

Inaccessible influence

Value standard error t. value

X1 -2.649642968 1.11875070 -2.36839447

X2 -2.583699149 1.03935109 -2.48587718

X3 -4.726811994 1.06952974 -4.41952366

The result of table 51.5100 hertz

5100 hertz

Plug-in effect

Value standard error t. value

X1 -5.12838471 1.72005712 -2.98152000

X2 -18.18322864 1.59798178 -11.37887104

X3 -16.68033428 1.64438087 -10.14383871

Inaccessible influence

Value standard error t. value

X1 -2.350640296 1.06203444 -2.21333717

X2 -2.222199512 0.98666007 -2.25224428

X3 -4.297318170 1.01530879 -4.23252337

The result of table 52.5200 hertz

5200 hertz

Plug-in effect

Value standard error t. value

X1 -4.846893396 1.73104035 -2.79998868

X2 -17.483734536 1.60818552 -10.87171496

X3 -15.991399029 1.65488088 -9.66317230

Inaccessible influence

Value standard error t. value

X1 -1.863905114 1.02038103 -1.82667559

X2 -1.588450835 0.94796287 -1.67564667

X3 -3.737920520 0.97548797 -3.83184685

The result of table 53.5300 hertz

5300 hertz

Plug-in effect

Value standard error t. value

X1 -4.635811384 1.74762530 -2.65263463

X2 -16.806580187 1.62359340 -10.35147110

X3 -15.434734844 1.67073615 -9.23828390

Inaccessible influence

Value standard error t. value

X1 -1.55178690 0.94658159 -1.6393588

X2 -1.11156094 0.87940111 -1.2639977

X3 -3.32312975 0.90493544 -3.6722285

The result of table 54.5400 hertz

5400 hertz

Plug-in effect

Value standard error t. value

X1 -4.296048437 1.76786473 -2.430077577

X2 -16.007405575 1.64239640 -9.746371538

X3 -14.827069029 1.69008511 -8.772971794

Inaccessible influence

Value standard error t. value

X1 -1.357632686 0.92688227 -1.46473044

X2 -1.085022430 0.86109989 -1.26004247

X3 -3.141020167 0.86610283 -3.54475809

The result of table 55.5500 hertz

5500 hertz

Plug-in effect

Value standard error t. value

X1 -4.040537444 1.7891974 -2.258296111

X2 -15.177478550 1.6622150 -9.130875559

X3 -14.401720605 1.7104792 -8.419699405

Inaccessible influence

Value standard error t. value

X1 -1.172678260 0.90954444 -1.28930287

X2 -1.124977061 0.84499255 -1.33134554

X3 -3.053792404 0.86952779 -3.51201241

The result of table 56.5600 hertz

5600 hertz

Plug-in effect

Value standard error t. value

X1 -3.842925160 1.8254446 -2.10519960

X2 -14.418027712 1.6958897 -8.50174849

X3 -14.202779253 1.7451316 -8.13851454

Inaccessible influence

Value standard error t. value

X1 -0.949080983 0.92183414 -1.02955721

X2 -0.951847054 0.85641002 -1.11143848

X3 -2.755459070 0.88127679 -3.12666701

The result of table 57.5700 hertz

5700 hertz

Plug-in effect

Value standard error t. value

X1 -3.696893582 1.8553649 -1.99254262

X2 -13.570943809 1.7236865 -7.87320879

X3 -14.186977436 1.7737356 -7.99836104

Inaccessible influence

Value standard error t. value

X1 -0.981408120 0.94246447 -1.04132108

X2 -1.137744866 0.87557619 -1.29942417

X3 -2.818453141 0.90099947 -3.12814075

The result of table 58.5800 hertz

5800 hertz

Plug-in effect

Value standard error t. value

X1 -3.485335327 1.9118784 -1.82299003

X2 -12.900093591 1.7761892 -7.26279241

X3 -14.302358724 1.8277627 -7.82506305

Inaccessible influence

Value standard error t. value

X1 -1.43215721 0.99833534 -1.4345452

X2 -1.30174219 0.92748180 -1.4035232

X3 -3.03832890 0.95441221 -3.1834556

The result of table 59.5900 hertz

5900 hertz

Plug-in effect

Value standard error t. value

X1 -3.470882999 1.9551480 -1.77525331

X2 -12.237829059 1.8163879 -6.73745358

X3 -14.656469432 1.8691286 -7.84133809

Inaccessible influence

Value standard error t. value

X1 -1.570601603 1.01546928 -1.54667564

X2 -1.143278073 0.94339973 -1.21187026

X3 -3.089089793 0.97079233 -3.18202946

The result of table 60.6000 hertz

6000 hertz

Plug-in effect

Value standard error t. value

X1 -3.505504506 1.9935030 -1.75846459

X2 -11.643669192 1.8520208 -6.28700782

X3 -15.008307749 1.9057962 -7.87508551

Inaccessible influence

Value standard error t. value

X1 -1.4782767934 1.03060693 -1.43437498

X2 -0.9518932129 0.95746303 -0.99418273

X3 -2.8687898427 0.98526398 -2.91169667

The result of table 61.6100 hertz

6100 hertz

Plug-in effect

Value standard error t. value

X1 -3.527926580 2.0085812 -1.75642715

X2 -11.026150510 1.8660288 -5.90888537

X3 -15.238089915 1.9202110 -7.93563327

Inaccessible influence

Value standard error t. value

X1 -1.581128817 1.06615246 -1.48302319

X2 -0.690258914 0.99048583 -0.69688924

X3 -2.842076531 1.01924563 -2.78841179

The result of table 62.6200 hertz

6200 hertz

Plug-in effect

Value standard error t. value

X1 -3.541042894 2.0249469 -1.748709011

X2 -10.499983894 1.8812330 -5.581437152

X3 -15.602866439 1.9358566 -8.059928816

Inaccessible influence

Value standard error t. value

X1 -1.560048975 1.10174868 -1.41597535

X2 -0.553851718 1.02355573 -0.54110558

X3 -2.615469069 1.05327575 -2.48317600

The result of table 63.6300 hertz

6300 hertz

Plug-in effect

Value standard error t. value

X1 -3.64729645 2.0274164 -1.79898731

X2 -9.92894474 1.8835273 -5.27146316

X3 -15.85389666 1.9382175 -8.17962727

Inaccessible influence

Value standard error t. value

X1 -1.38042349 1.09173705 -1.26442854

X2 -0.37261352 1.01425464 -0.36737669

X3 -2.33816761 1.04370459 -2.24025804

The result of table 64.6400 hertz

6400 hertz

Plug-in effect

Value standard error t. value

X1 -3.72431243 2.0226028 -1.84134638

X2 -9.47118863 1.8790553 -5.04039902

X3 -16.11724147 1.9336157 -8.33528692

Inaccessible influence

Value standard error t. value

X1 -1.391813985 1.05689378 -1.31689107

X2 -0.267321456 0.98188426 -0.27225353

X3 -2.187831043 1.01039430 -2.16532401

The result of table 65.6500 hertz

6500 hertz

Plug-in effect

Value standard error t. value

X1 -3.713274489 2.0281956 -1.83082665

X2 -9.044965698 1.8842511 -4.80029737

X3 -16.426047721 1.9389623 -8.47156616

Inaccessible influence

Value standard error t. value

X1 -1.731417523 1.01416531 -1.707234029

X2 -0.548784418 0.94218829 -0.582457266

X3 -2.528227998 0.96954572 -2.607641843

The result of table 66.6600 hertz

6600 hertz

Plug-in effect

Value standard error t. value

X1 -3.766690641 2.0267967 -1.85844519

X2 -8.678056381 1.8829516 -4.60875176

X3 -16.764044366 1.9376251 -8.65185156

Inaccessible influence

Value standard error t. value

X1 -1.98956391 0.95040501 -2.09338533

X2 -1.10722139 0.88295317 -1.25399786

X3 -2.75192688 0.90859065 -3.02878627

The result of table 67.6700 hertz

6700 hertz

Plug-in effect

Value standard error t. value

X1 -4.014308937 2.0434736 -1.96445358

X2 -8.397504120 1.8984448 -4.42335962

X3 -17.021841498 1.9535682 -8.71320587

Inaccessible influence

Value standard error t. value

X1 -2.407488315 0.94010973 -2.5608588

X2 -1.341366154 0.87338857 -1.5358183

X3 -2.928638691 0.89874832 -3.2585749

The result of table 68.6800 hertz

6800 hertz

Plug-in effect

Value standard error t. value

X1 -4.354917941 2.0694860 -2.10434760

X2 -8.141998692 1.9226111 -4.23486507

X3 -17.378004698 1.9784362 -8.78370757

Inaccessible influence

Value standard error t. value

X1 -2.500115515 0.98440958 -2.5397107

X2 -1.447595547 0.91454438 -1.5828598

X3 -2.996861320 0.94109914 -3.1844268

The result of table 69.6900 hertz

6900 hertz

Plug-in effect

Value standard error t. value

X1 -4.748185680 2.1060634 -2.25453122

X2 -7.861928357 1.9565925 -4.01817352

X3 -17.572263041 2.0134043 -8.72763772

Inaccessible influence

Value standard error t. value

X1 -2.943078973 1.02579595 -2.8690686

X2 -1.751442140 0.95299349 -1.8378322

X3 -3.203777402 0.98066466 -3.2669449

The result of table 70.7000 hertz

7000 hertz

Plug-in effect

Value standard error t. value

X1 -5.36964885 2.1060878 -2.54958453

X2 -7.62145160 1.9566152 -3.89522250

X3 -17.63774396 2.0134276 -8.76005873

Inaccessible influence

Value standard error t. value

X1 -3.0958671835 1.09618801 -2.824211866

X2 -1.6347488389 1.01838971 -1.605229143

X3 -3.0436625264 1.04795973 -2.904369750

The result of table 71.7100 hertz

7100 hertz

Plug-in effect

Value standard error t. value

X1 -5.979052985 2.1484033 -2.78302176

X2 -7.409193538 1.9959275 -3.71215570

X3 -17.930145965 2.0538813 -8.72988412

Inaccessible influence

Value standard error t. value

X1 -2.93400085 1.12940070 -2.59783871

X2 -1.35279652 1.04924523 -1.28930442

X3 -2.84600351 1.07971117 -2.63589335

The result of table 72.7200 hertz

7200 hertz

Plug-in effect

Value standard error t. value

X1 -6.53523989 2.1790642 -2.9991039

X2 -7.29180932 2.0244124 -3.6019388

X3 -18.20102578 2.0831933 -8.7370797

Inaccessible influence

Value standard error t. value

X1 -2.854334671 1.13785077 -2.50853165

X2 -1.261150721 1.05709559 -1.19303375

X3 -2.983604193 1.08778948 -2.74281399

The result of table 73.7300 hertz

7300 hertz

Plug-in effect

Value standard error t. value

X1 -6.75636148 2.2050562 -3.06403143

X2 -7.08463282 2.0485597 -3.45834830

X3 -18.28648048 2.1080417 -8.67462921

Inaccessible influence

Value standard error t. value

X1 -2.82929369 1.10910247 -2.55097593

X2 -1.27314769 1.03038760 -1.23560075

X3 -3.10192981 1.06030599 -2.92550437

The result of table 74.7400 hertz

7400 hertz

Plug-in effect

Value standard error t. value

X1 -6.83076637 2.2407210 -3.04846800

X2 -6.91081533 2.0816933 -3.31980476

X3 -18.37488422 2.1421375 -8.57782685

Inaccessible influence

Value standard error t. value

X1 -2.49001160 1.07112286 -2.3246741

X2 -1.25209393 0.99510347 -1.2582550

X3 -2.88266037 1.02399735 -2.8151053

The result of table 75.7500 hertz

7500 hertz

Plug-in effect

Value standard error t. value

X1 -6.665475332 2.2928263 -2.90709996

X2 -6.678922730 2.1301006 -3.13549639

X3 -18.482033551 2.1919503 -8.43177578

Inaccessible influence

Value standard error t. value

X1 -2.14003047 1.05586865 -2.0267961

X2 -1.06587090 0.98093188 -1.0865901

X3 -2.78648541 1.00941427 -2.7604973

The result of table 76.7600 hertz

7600 hertz

Plug-in effect

Value standard error t. value

X1 -6.453321221 2.3169883 -2.785219570

X2 -6.517903336 2.1525478 -3.027994735

X3 -18.428207086 2.2150493 -8.319547271

Inaccessible influence

Value standard error t. value

X1 -1.81049894 1.05228996 -1.7205324

X2 -0.71468545 0.97760718 -0.7310558

X3 -2.58402589 1.00599303 -2.5686320

The result of table 77.7700 hertz

7700 hertz

Plug-in effect

Value standard error t. value

X1 -6.176510870 2.3478779 -2.63067809

X2 -6.290253935 2.1812450 -2.88379060

X3 -18.283821601 2.2445798 -8.14576596

Inaccessible influence

Value standard error t. value

X1 -1.48510082 1.07347198 -1.3834556

X2 -0.55147183 0.99728587 -0.5529727

X3 -2.27496805 1.02624312 -2.2167925

The result of table 78.7800 hertz

7800 hertz

Plug-in effect

Value standard error t. value

X1 -6.06108309 2.3716242 -2.55566757

X2 -6.19084626 2.2033061 -2.80979857

X3 -18.21570774 2.2672814 -8.03416280

Inaccessible influence

Value standard error t. value

X1 -1.413226227 1.09382747 -1.29200104

X2 -0.491633275 1.01619670 -0.48379736

X3 -2.147169312 1.04570304 -2.05332607

The result of table 79.7900 hertz

7900 hertz

Plug-in effect

Value standard error t. value

X1 -6.01019067 2.3741523 -2.53151017

X2 -6.17081726 2.2056547 -2.79772587

X3 -18.20382232 2.2696982 -8.02037121

Inaccessible influence

Value standard error t. value

X1 -1.116427464 1.12532100 -0.99209689

X2 -0.075233199 1.04545509 -0.07196215

X3 -2.042620033 1.07581097 -1.89867931

The result of table 80.8000 hertz

8000 hertz

Plug-in effect

Value standard error t. value

X1 -5.994943790 2.3595836 -2.540678681

X2 -6.231208076 2.1921200 -2.842548786

X3 -18.251784219 2.2557705 -8.091152906

Inaccessible influence

Value standard error t. value

X1 -0.919289912 1.11313021 -0.82586018

X2 0.150751742 1.03412949 0.14577647

X3 -1.869693540 1.06415653 -1.75697229

Though illustrated and described the preferable embodiment of the present invention, can make various modifications and replacement to the present invention and do not break away from its spirit and scope.Therefore, be understandable that the description of this invention only is example explanation and unrestricted.

Claims (41)

1. hearing aids comprises:

Be positioned at the receiver of user's duct, this receiver produces the insertion loss that is not more than about three decibels in audiorange.

2. hearing aids as claimed in claim 1 is characterized in that, described receiver produces in audiorange and is not more than about two decibels insertion loss.

3. hearing aids as claimed in claim 2 is characterized in that, described receiver produces in audiorange and is not more than about one decibel insertion loss.

4. hearing aids as claimed in claim 1 is characterized in that, described receiver produces the insertion loss that is not more than about three decibels at about 2200 hertz in about 5300 hertz audiorange.

5. hearing aids as claimed in claim 4 is characterized in that, described receiver produces the insertion loss that is not more than about three decibels at about 3000 hertz in about 5000 hertz audiorange.

6. hearing aids as claimed in claim 5 is characterized in that, described receiver produces the insertion loss that is not more than about three decibels at about 3500 hertz in about 4500 hertz audiorange.

7. hearing aids as claimed in claim 1 is characterized in that, described receiver is positioned at the cartilage zone of user's duct.

8. hearing aids as claimed in claim 1 is characterized in that, described receiver has less than half maximum transverse size of user's duct maximum transverse size.

9. hearing aids as claimed in claim 8 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 30%.

10. hearing aids as claimed in claim 9 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 20%.

11. hearing aids as claimed in claim 10 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 10%.

12. hearing aids as claimed in claim 11 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 5%.

13. hearing aids as claimed in claim 1, it is characterized in that, described hearing aids also comprises the middle interconnecting piece between sound processing unit and sound processing unit and the receiver, and middle interconnecting piece comprises conductance element and the reinforcement metal silk at least a portion that is arranged on middle interconnecting piece.

14. hearing aids as claimed in claim 13 is characterized in that, described reinforcement metal silk comprises metal or alloy.

15. hearing aids as claimed in claim 14 is characterized in that, described metal or metal alloy has plastic memory so that wire can deflection and returned to inceptive direction.

16. hearing aids as claimed in claim 13 is characterized in that, the electricity portion of leading is at least partially disposed in the first passage, and the reinforcement metal silk is arranged on the outside of first passage.

17. hearing aids as claimed in claim 16 is characterized in that, described reinforcement metal silk is arranged in the second channel.

18. hearing aids as claimed in claim 13 is characterized in that, described reinforcement metal silk at least a portion of receiver or above extension.

19. hearing aids as claimed in claim 1, it is characterized in that, described hearing aids also comprises sound processing unit and middle interconnecting piece, and at least one from middle connecting portion and receiver of a retention wire extended, and this retention wire is set to engage with at least a portion of the external ear of user's ear.

20. hearing aids as claimed in claim 19 is characterized in that pars intermedia comprises reinforcing element, and retention wire is extended from the part of this reinforcing element.

21., it is characterized in that retention wire is so that hearing aids has the mode of the maximum insertion depth that inserts duct is provided with as claim 19 or 20 described hearing aidss.

22. as claim 19 or 20 described hearing aidss, it is characterized in that, described retention wire so that the hearing aids mode that hearing aids does not contact any part of duct basically when inserting duct be provided with.

23. hearing aids as claimed in claim 1 is characterized in that, described hearing aids also comprises sound processing unit, and middle interconnecting piece comprises at least two conductance elements that are arranged in the middle interconnecting piece.

24. hearing aids as claimed in claim 23 is characterized in that, described at least two conductance elements are arranged in two passages of isolating mutually to small part at least.

25. hearing aids as claimed in claim 24 is characterized in that, a reinforcement metal silk is arranged in the partially isolated at least passage of middle interconnecting piece.

26. hearing aids as claimed in claim 1, it is characterized in that, described receiver comprises the loud speaker that is centered around at least in part in the overcoat with first and second end, and described first end is communicated with middle interconnecting piece, and loud speaker is communicated with the port of the second end that is arranged on overcoat.

27. hearing aids as claimed in claim 26 is characterized in that, described port by barrier film (membrane) or closely material (mesh material) at least in part with respect to fluid seal.

28. hearing aids as claimed in claim 27 is characterized in that, described outer be enclosed within first end and along the length of the overcoat that extends to port from first end with respect to fluid seal.

29. hearing aids as claimed in claim 26 is characterized in that, described port comprises movably earwax gatherer.

30. a hearing aids comprises:

Receiver is set to be positioned at the cartilage zone of user's duct, and it is minimum to insert loss when the size setting of described receiver makes receiver be positioned at the cartilage zone.

31. hearing aids as claimed in claim 30 is characterized in that, described receiver produces the insertion loss that is not more than about three decibels at about 2200 hertz in about 5300 hertz audiorange.

32. hearing aids as claimed in claim 30 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 20%.

33. hearing aids as claimed in claim 30, it is characterized in that, described hearing aids also comprises acoustic processing element and middle interconnecting piece, and at least one from middle connecting portion and receiver of a retention wire extended, and this retention wire is set to engage with at least a portion of the external ear of user's ear.

34. hearing aids as claimed in claim 30, it is characterized in that, described hearing aids also comprises the middle interconnecting piece between sound processing unit and sound processing unit and the receiver, and middle interconnecting piece comprises conductance element and the reinforcement metal silk at least a portion that is arranged on middle interconnecting piece.

35. hearing aids as claimed in claim 30, it is characterized in that, described hearing aids also comprises sound processing unit and middle interconnecting piece, this middle interconnecting piece comprises at least two conductance elements that set within it, and described at least two conductance elements are arranged in two passages of isolating mutually to small part at least.

36. a hearing aids comprises:

Receiver is set to be positioned at user's duct, and this receiver has the maximum transverse size less than user's duct maximum transverse size 30%.

37. hearing aids as claimed in claim 36 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 20%.

38. hearing aids as claimed in claim 36 is characterized in that, described receiver has the maximum transverse size less than user's duct maximum transverse size 10%.

39. a hearing aids comprises:

Receiver;

Sound processing unit; And

At least one from middle connecting portion and receiver of middle interconnecting piece, a retention wire extended, and this retention wire is set to engage with at least a portion of the external ear of user's ear.

40. a hearing aids comprises:

Receiver;

Sound processing unit; And

Middle interconnecting piece, this middle interconnecting piece comprise conductance element and the reinforcement metal silk at least a portion that is arranged on middle interconnecting piece.

41. a hearing aids comprises;

Receiver;

Sound processing unit; And

Middle interconnecting piece, this middle interconnecting piece comprise at least two conductance elements that are arranged in the middle interconnecting piece, and described at least two conductance elements are arranged in two passages of isolating mutually to small part at least.

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