Oticon Go Technical Guide by Hearing Planet

Catalogue: Hearing Planet Oticon Go Technical Guide

Catalog: Oticon Go Technical Guide
Company/Brand: Hearing Planet

Flippable HTML catalog

PDF catalog

Flippable Flash catalog

Visitor statistics

Searched and found

100 240 v 15 60 50 hz 10000 m 1996 technical data 31 db gain 312 batteries accord 1996 air coupler ansi 140 ansi 80 ansi 80 3 at 2000 coupler automatic volume control battery door battery size bte coupler oticon db response dect din 125 din 13 din 78 dinning set ear 111 ear bands fm system fm systems full shell go go 4 go bte power gsm gsm dect guide 55 hearing instrument oticon hf digital insert 2 go noah 2 noise levels oticon oticon 10 oticon 50 oticon battery oticon battery doors oticon go oticon go p oticon go power oticon power bte peak pressure pure tone push button switch series 5100 shift guide spl telecoil telecoil 4

Similar catalogs to Oticon Go Technical Guide

Oticon Syncro 2 Product Data Sheet by Hearing Planet (47%)
Triano Technical Guide by Hearing Planet (19%)
Guide for better hearing by Bernafon International (19%)
Delta Audiology Concept by Oticon A/S (18%)
Caring for your Child's Hearing Instruments by Phonak AG (17%)
Hearing Systems by Phonak AG (15%)
Hearing makes Friends Hearing Aid Guide by Siemens Hearing Instruments, Inc. (14%)
HEAR-MORE Products for deaf 2006/07 Catalog by Hear-More (13%)
Hearing Devices by Oticon A/S (12%)
Oticon DigiFocus Consumer Brochure by Hearing Planet (11%)

Oticon Go Technical Guide is listed here

Health & Beauty » Medical Special Needs » Hearing Assistance

Selected page of Oticon Go Technical Guide

[View page 4]

f itting select oticon in the noah manufacturer selection screen a sub-screen will appear choose genie use the selection menu to select instruments when a go instrument is selected click fitting to program the instrument standard fitting panel use the trimmers to adjust lf loud low frequency gain for loud inputs shown value is average insertion gain at 80 db spl lf soft low frequency gain for soft inputs shown value is average insertion gain at 50 db spl hf loud high frequency gain for loud inputs hf soft high frequency gain for soft inputs link loud and soft control to make overall gain changes in the hf or lf channels mpo sets the maximum power output shown value is maximum sound pressure in the ear canal in db hl manual override sets the reserve gain in the digital volume control adaptation manager set the adaptation manager to reflect the hearing aid experience of the client and to get high immediate acceptance by reducing or increasing the selected setting linked not linked

[View page 6]

p roductoverview peak gain db ear simulator 2cc coupler peak output db spl ear simulator 2cc coupler battery size battery lifetime typical hours telecoil options volume control cic/mic 45 35 114 104 10 100 itc 50 40 120 110 312 160 hs/lp 312 55 46 120 110 312 145 yes yes hs/lp direct 10a or 312 52 43 120 110 10 or 312 70 yes 130 hs/lp power 312 60 49 127 117 312 120 yes standard full shell power 13 65 55 133 125 13 170 yes standard bte 66 59 125 119 13 270 standard yes bte power 74 71 138 133 13 220 standard standard bte direct 66 57 122 115 13 220 standard 6

[View page 7]

t echnicalcic micinformation ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 114 104 106 105 2cc coupler sspl90 104 99 98 100 100 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db spl output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi 80 db full-on gain input 50 db spl 45 36 39 38 35 30 30 31 32 70 60 50 40 30 db full-on gain input 50 db spl 110-5400 frequency range hz din/ansi 100-5400 20 10 100 200 hz 5

[View page 8]

t echnicalitcinformation ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 120 111 114 113 2cc coupler sspl90 110 105 105 106 106 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db spl output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi 80 db full-on gain input 50 db spl 50 41 43 43 40 35 35 36 37 70 60 50 40 30 db full-on gain input 50 db spl 130-5400 frequency range hz din/ansi 100-5400 20 10 100 200 hz 500

[View page 9]

t echnicalhs lpinformation ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 120 111 114 113 2cc coupler sspl90 110 105 105 106 107 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db spl output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi 80 db full-on gain input 50 db spl 55 46 48 48 46 41 40 42 42 70 60 50 40 30 db full-on gain input 50 db spl 140-5100 frequency range hz din/ansi telecoil output db spl 1 ma

[View page 10]

t echnicalhs lpinformationdirect ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 120 110 113 112 2cc coupler sspl90 110 105 105 106 106 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db spl output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi 80 db full-on gain input 50 db spl 52 47 47 47 43 41 39 41 41 70 60 50 40 30 db full-on gain input 50 db spl 120-5400 frequency range hz din/ansi telecoil output db sp

[View page 12]

t echnicalfullshellinformationpower 1 3 ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 133 127 132 128 2cc coupler sspl90 125 121 124 122 122 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db spl output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi 80 db full-on gain input 50 db spl 65 55 60 57 55 50 53 51 52 70 60 50 40 30 db full-on gain input 50 db spl 125-5100 frequency range hz din/ansi telecoil outp

[View page 13]

t echnicalbteinformation ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 125 118 117 117 2cc coupler sspl90 119 114 111 113 114 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db spl output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi 80 db full-on gain input 50 db spl 66 58 56 56 59 53 50 52 54 70 60 50 40 30 db full-on gain input 50 db spl 150-5500 frequency range hz din/ansi telecoil output db spl 1 ma/m

[View page 14]

t echnicalbtepowerinformation ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 output sound pressure level ospl90 140 130 120 110 100 90 80 70 60 50 40 30 20 10 db db spl data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands ear simulator ospl90 138 134 131 130 2cc coupler sspl90 133 130 123 125 127 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 output sound pressure level ospl90 140 130 120 110 100 90 db spl output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain input 50 db spl 74 71 68 67 80 full-on gain input 50 db spl db 71 68 60 62 65 70 60 50 40 30 120-5400 frequency range hz din/ansi telecoil output db spl 1

[View page 15]

t echnicalbtedirectinformation ear simulator measured according to iec publications 118-0 -1 -2 -6 -13 incl amendments and 711 data at a glance note measurements with pure tones on a digital hearing instrument can show a wavy hf-response due to the constant time delay that causes a series of full phase shifts in narrow frequency bands unless otherwise stated all measurements are in the omnidirectional program ear simulator ospl90 122 115 115 114 2cc coupler sspl90 115 110 108 108 111 2cc coupler measured according to iec publications 118-7 incl amendments and 126 and to ansi s3.22 1996 and s3.7 1973 140 130 120 110 100 90 80 db spl 140 130 120 110 100 90 80 db spl output sound pressure level ospl90 output sound pressure level ospl90 output db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain db input 50 db spl peak 1000 hz 1600 hz average din hf average ansi full-on gain input 50 db spl 70 60 50 40 30 20 10 db 70 60 db full-on gain input 50 db spl 66 55 56 54 57 50 49 4

[View page 16]

we believe that it takes more than technology and audiology to create the best hearing instruments that s why we put the individual needs and wishes of hearing impaired people first in our development of new hearing care solutions www.oticonus.com 910 54 011 06 12.03 printed in denmark

All copyrights remain by their owners. Who-sells-it.com is not an official partner of Hearing Planet.