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Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


miniRITE T 60
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
Mould, Bass & Power dome
Oticon Real 1
Technical information
Omnidirectional mode is used unless otherwise stated.
OpenBass dome
OSPL90
Peak (dB SPL)
116
105
1600 Hz (dB SPL)
110
102
HFA-OSPL90 (dB SPL)
111
103
Full-on gain¹
Peak (dB)
46
36
1600 Hz (dB)
37
29
HFA-FOG (dB)
38
30
Reference test gain (dB)
30
26
Frequency range (Hz)
100-9600
100-9400
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
68
-
10 mA/m field (1600 Hz) (dB SPL)
88
-
HFA SPLITS L/R (dB SPL)
-
85/85
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<2
<2
800 Hz (%)
<3
<2
1600 Hz (%)
<2
<2
Equivalent input noise level
Omni (dB SPL)
18
16
Dir (dB SPL)
26
27
Battery consumption²
Typical (mA)
2.3
2.2
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
80
80
Expected battery life, hours (battery size 312 - IEC PR41)⁴
55-60
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


miniRITE T 60
Mould, Bass & Power dome
Oticon Real 2 & 3
Technical information
Omnidirectional mode is used unless otherwise stated.
OpenBass dome
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


Mould, Bass & Power dome
OpenBass dome
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


Mould, Bass & Power dome
OpenBass dome
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


Power flex mould, Bass & Power dome
Technical information
Omnidirectional mode is used unless otherwise stated.
Warning to the hearing aid dispenser
The maximum output capability of the hearing aid may exceed 132 dB SPL (IEC 711). Special care should be exercised in selecting and fitting the hearing aid, as there may be risk of impairing the remaining hearing of the hearing aid user.
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


Power flex mould, Bass & Power dome
Technical information
Omnidirectional mode is used unless otherwise stated.
Warning to the hearing aid dispenser
The maximum output capability of the hearing aid may exceed 132 dB SPL (IEC 711). Special care should be exercised in selecting and fitting the hearing aid, as there may be risk of impairing the remaining hearing of the hearing aid user.
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


Power flex mould
Ear Simulator
Measured according to
IEC 60118-0:1983/AMD1:1994, IEC 60118-0:2015, IEC 60118-1:1995+AMD1:1998 CSV
and IEC 60318-4:2010
2CC Coupler
Measured according to
ANSI S3.22-2014, IEC 60118-0:2015
and IEC 60318-5:2006
OSPL90
OSPL90



Full-on gain
Full-on gain


Frequency response
Frequency response


Power flex mould
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
Acoustic input: 60 dB SPL
Magnetic input: 31.6 mA/m
OSPL90
Peak (dB SPL)
127
117
1600 Hz (dB SPL)
121
113
HFA-OSPL90 (dB SPL)
122
114
Full-on gain¹
Peak (dB)
66
55
1600 Hz (dB)
53
45
HFA-FOG (dB)
56
48
Reference test gain (dB)
46
37
Frequency range (Hz)
100-9500
100-8900
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
84
-
10 mA/m field (1600 Hz) (dB SPL)
104
-
HFA SPLITS L/R (dB SPL)
-
96/96
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<2
<2
800 Hz (%)
<4
<2
1600 Hz (%)
<5
<2
Equivalent input noise level
Omni (dB SPL)
21
17
Dir (dB SPL)
29
27
Battery consumption²
Typical (mA)
2.4
2.4
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
75
75
Expected battery life, hours (battery size 312 - IEC PR41)⁴
50-60
OSPL90
Peak (dB SPL)
132
123
1600 Hz (dB SPL)
130
122
HFA-OSPL90 (dB SPL)
127
119
Full-on gain¹
Peak (dB)
66
57
1600 Hz (dB)
60
53
HFA-FOG (dB)
61
53
Reference test gain (dB)
53
42
Frequency range (Hz)
100-8900
100-7500
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
91
-
10 mA/m field (1600 Hz) (dB SPL)
111
-
HFA SPLITS L/R (dB SPL)
-
101/101
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<9
<2
800 Hz (%)
<6
<2
1600 Hz (%)
<3
<2
Equivalent input noise level
Omni (dB SPL)
17
16
Dir (dB SPL)
25
28
Battery consumption²
Typical (mA)
2.2
2.4
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
80
75
Expected battery life, hours (battery size 312 - IEC PR41)⁴
50-60
OSPL90
Peak (dB SPL)
135
127
1600 Hz (dB SPL)
133
126
HFA-OSPL90 (dB SPL)
131
123
Full-on gain¹
Peak (dB)
72
64
1600 Hz (dB)
66
59
HFA-FOG (dB)
65
58
Reference test gain (dB)
58
47
Frequency range (Hz)
100-9100
100-7900
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
96
-
10 mA/m field (1600 Hz) (dB SPL)
116
-
HFA SPLITS L/R (dB SPL)
-
106/106
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<4
<2
800 Hz (%)
<4
<2
1600 Hz (%)
<4
<2
Equivalent input noise level
Omni (dB SPL)
15
16
Dir (dB SPL)
24
27
Battery consumption²
Typical (mA)
2.3
2.4
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
80
75
Expected battery life, hours (battery size 312 - IEC PR41)⁴
50-60
OSPL90
Peak (dB SPL)
116
105
1600 Hz (dB SPL)
110
102
HFA-OSPL90 (dB SPL)
111
103
Full-on gain¹
Peak (dB)
46
36
1600 Hz (dB)
37
29
HFA-FOG (dB)
38
30
Reference test gain (dB)
30
26
Frequency range (Hz)
100-7500
100-7500
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
68
-
10 mA/m field (1600 Hz) (dB SPL)
88
-
HFA SPLITS L/R (dB SPL)
-
85/85
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<2
<2
800 Hz (%)
<3
<2
1600 Hz (%)
<2
<2
Equivalent input noise level
Omni (dB SPL)
18
16
Dir (dB SPL)
26
27
Battery consumption²
Typical (mA)
2.2
2.2
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
80
80
Expected battery life, hours (battery size 312 - IEC PR41)⁴
55-60
OSPL90
Peak (dB SPL)
127
117
1600 Hz (dB SPL)
121
113
HFA-OSPL90 (dB SPL)
122
114
Full-on gain¹
Peak (dB)
66
55
1600 Hz (dB)
53
45
HFA-FOG (dB)
56
48
Reference test gain (dB)
46
37
Frequency range (Hz)
100-7500
100-7500
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
84
-
10 mA/m field (1600 Hz) (dB SPL)
104
-
HFA SPLITS L/R (dB SPL)
-
96/96
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<2
<2
800 Hz (%)
<4
<2
1600 Hz (%)
<5
<2
Equivalent input noise level
Omni (dB SPL)
21
17
Dir (dB SPL)
28
27
Battery consumption²
Typical (mA)
2.3
2.4
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
75
75
Expected battery life, hours (battery size 312 - IEC PR41)⁴
50-60
OSPL90
Peak (dB SPL)
132
123
1600 Hz (dB SPL)
130
122
HFA-OSPL90 (dB SPL)
127
119
Full-on gain¹
Peak (dB)
66
57
1600 Hz (dB)
60
53
HFA-FOG (dB)
61
53
Reference test gain (dB)
53
42
Frequency range (Hz)
100-7500
100-7500
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
91
-
10 mA/m field (1600 Hz) (dB SPL)
111
-
HFA SPLITS L/R (dB SPL)
-
101/101
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<9
<2
800 Hz (%)
<6
<2
1600 Hz (%)
<3
<2
Equivalent input noise level
Omni (dB SPL)
16
16
Dir (dB SPL)
25
28
Battery consumption²
Typical (mA)
2.2
2.3
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
80
75
Expected battery life, hours (battery size 312 - IEC PR41)⁴
50-60
OSPL90
Peak (dB SPL)
135
127
1600 Hz (dB SPL)
133
126
HFA-OSPL90 (dB SPL)
131
123
Full-on gain¹
Peak (dB)
72
64
1600 Hz (dB)
66
59
HFA-FOG (dB)
65
58
Reference test gain (dB)
58
47
Frequency range (Hz)
100-7500
100-7500
Telecoil output
1 mA/m field (1600 Hz) (dB SPL)
96
-
10 mA/m field (1600 Hz) (dB SPL)
116
-
HFA SPLITS L/R (dB SPL)
-
106/106
Total harmonic distortion
(Input 70 dB SPL)
500 Hz (%)
<4
<2
800 Hz (%)
<4
<2
1600 Hz (%)
<4
<2
Equivalent input noise level
Omni (dB SPL)
15
16
Dir (dB SPL)
24
27
Battery consumption²
Typical (mA)
2.3
2.4
Quiescent (mA)
2.2
2.2
Battery life, artificial measurement, hours³
80
75
Expected battery life, hours (battery size 312 - IEC PR41)⁴
50-60
Technical information
Omnidirectional mode is used unless otherwise stated.
Technical information
Omnidirectional mode is used unless otherwise stated.
262115UK / 2022.10.06 / v2
www.oticon.global

SBO Hearing A/S
Kongebakken 9
DK-2765 Smørum
Denmark
Headquarters
Oticon A/S
Kongebakken 9
DK-2765 Smørum
Denmark
miniRITE T 85
miniRITE T 85
miniRITE T 100
miniRITE T 100
miniRITE T 105
miniRITE T 105
Technical information
Omnidirectional mode is used unless otherwise stated.
Warning to the hearing aid dispenser
The maximum output capability of the hearing aid may exceed 132 dB SPL (IEC 711). Special care should be exercised in selecting and fitting the hearing aid, as there may be risk of impairing the remaining hearing of the hearing aid user.
Technical information
Omnidirectional mode is used unless otherwise stated.
Warning to the hearing aid dispenser
The maximum output capability of the hearing aid may exceed 132 dB SPL (IEC 711). Special care should be exercised in selecting and fitting the hearing aid, as there may be risk of impairing the remaining hearing of the hearing aid user.
Notes
Notes
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
1) Measured with the gain control of the hearing aids set to their full-on position minus 20 dB and with an input SPL of 70 dB. This is to obtain a gain response equal to the full-on gain
response from e.g. IEC 60118-0:1983+A1:1994 but without influence of feedback.
2) Battery current is measured according to IEC 60118-0:1983/AMD1:1994 §7.11, IEC 60118-0:2015 §7.7 and ANSI S3.22:2014 §6.13 after a settling time of minimum 3 minutes.
3) Based on the standardised battery consumption measurement (e.g. IEC 60118-0:1983/AMD1:1994). The actual battery life depends on battery quality, use pattern, active feature set,
hearing loss and sound environment.
4) Real usage battery life is shown as an estimated interval based on mixed use cases with variable amplification settings and variable input levels, incl. direct stereo streaming from a TV
(25% of the time) and streaming from a mobile phone (6% of the time).
Oticon Real 1
Oticon Real 2 & 3
Oticon Real 1
Oticon Real 2 & 3
Oticon Real 1
Oticon Real 2 & 3
Oticon Real™ miniRITE T offers a discreet design.
It is powered by a disposable battery and features telecoil and a double push-button. Based on Bluetooth® Low Energy technology, it is a Made for iPhone hearing aid and supports hands-free communication and direct streaming for iPhone, iPad, iPod touch and selected Android™ devices.
MoreSound Intelligence™ creates a more precise and natural representation of individual sounds with clearer and more distinct contrasts providing access to all relevant sounds.
Oticon Real is built on the Polaris R™ platform, which utilises faster detectors for powering new innovations used to optimise the audibility of the environmental sounds
in the sound scene.
1) Bandwidth accessible for gain adjustments during fitting
2) Hands-free communication is available with iPhone 11 or later running iOS 15.2 or later, and iPad running iPadOS 15.2 or later
3) From iPhone, iPad, iPod touch, and selected Android devices with the Audio Streaming for Hearing Aids (ASHA) protocol
Real 1
Real 2
Real 3
Speech understanding
MoreSound Intelligence™ 2.0
Level 1
Level 2
Level 3
- Environment configuration
5 options
5 options
3 options
- Virtual Outer Ear
3 configurations
1 configuration
1 configuration
- Spatial Balancer
100%
60%
60%
- Neural Noise Suppression, Difficult / Easy
10 dB / 4 dB
6 dB / 2 dB
6 dB / 0 dB
- Sound Enhancer
3 configurations
2 configurations
1 configuration
- Wind & Handling Stabilizer
•
•
•
MoreSound Amplifier™ 2.0
•
•
•
- SuddenSound Stabilizer
6 configurations
5 configurations
4 configurations
Feedback Prevention
MoreSound Optimizer™ & Feedback shield
MoreSound Optimizer™ & Feedback shield
MoreSound Optimizer™ & Feedback shield
Spatial Sound™
4 Estimators
2 Estimators
2 Estimators
Soft Speech Booster
•
•
•
Frequency lowering
Speech Rescue™
Speech Rescue™
Speech Rescue™
Sound
quality
Clear Dynamics
•
•
-
Better-Ear Priority
•
•
-
Fitting Bandwidth¹
10 kHz
8 kHz
8 kHz
Bass Boost (streaming)
•
•
•
Processing Channels
64
48
48
Personalisation & Optimising fitting
Fitting Bands
24
20
18
Multiple Directionality options
•
•
•
Adaptation Management
•
•
•
Fitting Formulas
VAC+, NAL-NL1/NAL-NL2, DSL v5
VAC+, NAL-NL1/NAL-NL2, DSL v5
VAC+, NAL-NL1/NAL-NL2, DSL v5
Connecting to
the world
Oticon Companion app
•
•
•
Hands-free communication²
•
•
•
Direct streaming³
•
•
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ConnectClip
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EduMic
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Remote Control 3.0
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TV Adapter 3.0
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Phone Adapter 2.0
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Tinnitus SoundSupport™
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CROS/BiCROS support
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Technical data sheet
miniRITE T
Apple, the Apple logo, iPhone, iPad, and iPod touch are trademarks of Apple Inc., registered in the U.S. and other countries.
Operating Conditions
Temperature: +1°C to +40°C (34°F to 104°F)
Humidity: 5% to 93% relative humidity,
non-condensing
Atmospheric pressure: 700 hPa to 1060 hPa
Storage and transportation conditions
Temperature and humidity shall not exceed the below limits for extended periods during transportation and storage.
Transportation
Temperature: -25°C to +60°C (-13°F to 140°F)
Humidity: 5% to 93% relative humidity,
non-condensing
Atmospheric pressure: 700 hPa to 1060 hPa
Storage
Temperature: -25°C to +60°C (-13°F to 140°F)
Humidity: 5% to 93% relative humidity,
non-condensing
Atmospheric pressure: 700 hPa to 1060 hPa
For information on compatibility, please visit www.oticon.global/compatibility
WARNING: No modification of this equipment is allowed.
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