Amorphous Silicon Solar Cells, Photosensors Datasheet by Panasonic Energy

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■Handling Amorphous Silicon Solar Cells and Amorphous Photosensors
★Use care around broken glass to avoid injury.
★Avoid touching solar cells during the daytime because they get very hot when the sunlight is strong.
★If the light-receiving side is stained/smudged, the electrical output will decline due to a decrease in the incident light.
Carefully clean the sides to remove stains.
★Pressing or scratching the energy-generating area with a hard object may decrease the output.
★These products are not water-resistant, or water-repellent, or shock-resistant. When using them outdoors, avoid getting
them wet by placing them in an airtight container, when appropriate.
★When using your product, consider a fail-safe or redundant design.
★Consider a proper method for static electricity removal. Static electricity may damage the power generation element and
decrease the output.
★Do not apply an indoor Amorton to a product that requires an outdoor environment. Proportional output
levels of light may not be obtained under high illumination.
★Do not apply an outdoor Amorton to a product that requires an indoor environment. The necessary output
may not be obtained under low light levels.
★Please test your products for anomalies and circumstances that cannot be predicted by evaluating a single Amorton.
■Storage
★Store in a cool (under a specific temperature range of -20℃70℃), low-humidity environment free of corrosive
gas to avoid such problems as electrode corrosion to the solar cells.
Any and all of our products described or contained herein are, with regard to standard application, intended for use as general electronics equipment,
including home appliances, AV equipment, communication devices, office equipment, industrial equipment, etc.
The products mentioned herein are not intended for any special applications (such as life-sustaining medical equipment, aerospace instruments, nucle-
ar control devices, appliances for burning, transportation machines, traffic signal systems, safety equipment, etc.) that require extremely high levels of
reliability and can directly threaten human lives during product failure or malfunction that might threaten lives; no guarantees thereof shall be granted.
If you intend to use our products for applications outside the standard applications and/or outside the scope of the intended standard applications,
please consult us prior to such use. Without such consultation or inquiry, the customer shall be held solely responsible.
Specifications of any or all of our products described or contained herein stipulate the performance, characteristics, and functions of the described
products in their independent state and are not guarantees of performance, characteristics, and functions as mounted in the customer’s products or
equipment. To verify the symptoms and states that cannot be evaluated in independent devices, the customer should always evaluate and test devices
mounted in its products or equipment.
Our company assumes no responsibility for equipment failures that result from using products at values that exceed (even momentarily) the rated
values (such as maximum ratings, operating condition ranges, or other parameters) listed in the products specifications of any and all of our products
described or contained herein.
●Our company supplies high-quality high-reliability products; however, any and all semiconductor products may fail or malfunction. Such probabilistic
failures or malfunctions might cause accidents or incidents that could endanger lives, problems that might produce smoke or fire, or accidents that
might damage property.
 At the time of the equipment design, adopt safety measures to avoid such accidents or events. Such measurements include but are not limited to
protective circuits and error prevention circuits for safe, redundant, and structural designs.
In the event that any or all our products described or contained herein correspond to restricted freight regulations stipulated in the Foreign Exchange
and Foreign Trade Act, such products may require an export license from the concerned authorities in accordance with the above law.
No part of this publication may be reproduced or transmitted in any form or any means, electronic or mechanical, including photocopying and record-
ing, or any information storage or retrieval system or otherwise, without the prior written consent of our company.
Any and all information described or contained herein is subject to change without notice due to product/technology improvements, etc. When using
equipment, refer to the Delivery Specifications for the product that you intend to use.
Information (including circuit diagrams and circuit parameters) herein are only examples; the volume of production is not guaranteed.
Upon using the technical information or products described herein, neither warranty nor license shall be granted with regard to the intellectual property
rights or any other rights of our company or any third party. Our company shall not be liable for any claim or suits with regard to a third party’s intellec-
tual property rights which resulted from the use of the above technical information and products.
Handling
Precautions
Points to
Consider in
Adopting Our
Products
Telephone reception: 9:00 a.m. to 5:00 p.m., Monday through Friday
Hours are subject to change, especially during the following long vacation
periods: Golden Week, summer vacation, and the end-of-the-year. Your
understanding is greatly appreciated.
Energy
conser-
vation
By pursuing energy conservation, we provide
our customers with products that support the
reduction of CO₂ emissions.
Resource
conserva-
tion
To promote resource recycling, we reduce the
consumption of new resources. Products are
made using recycled resources collected from
used products.
Chemical
substanc-
es
Panasonic products conform to the global standards
of the RoHS Directives, which regulate the use of
specific environmental load substances.
*Lead, cadmium, mercury, hexavalent chromium, and specific
bromine-based flame retardants
Tokyo Sky Tree, East Tower 20F
1-1-2, Oshiage, Sumida Ward, Tokyo
Zip code: 131-0045
No part of this publication may be photocopied without consent.
Panasonic Solar Amorton Co., Ltd.
Sales Planning Division, Project Planning Department
The information in this catalog is
April 2019.
Amorphous Silicon Solar Cells
Amorphous Photosensors
Outdoor lighting levels Indoor lighting levels
Watches
http://panasonic.com/jp/sustainability
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Wristwatches / Clocks / Wall clocks  Calculators
Energy-harvesting equipment
Wireless sensor networks / RFID tags / RF remote controls for digital home appliances, etc.
Power sources for multiple cards attached to displays
Power sources of wearable terminals  Toys  e-books
Garden lights, sensor lights, LED blinkers (curbstone markers, etc.)
Car accessories and battery chargers
Security devices  Power sources for other electric equipment and digital displays
Reduction of battery replacements and extension of battery life for appliances using dry cells and
coin batteries  loT
The power supply for human body sensors, the power supply for temperature & humidity sensors
 *Please contact us about replacing selenium cells.
Copes easily with devices required drive voltage
Since multiple cells can be simultaneously connected in a series when the
solar cells are formed, unlike the fabrication technique used with crystalline
silicon solar cells in which multiple solar cells are severed and connected, it
is easy to create cells with a variety of voltages.
Variety of shapes and forms
The methods used in amorphous silicon films have special
features that allow other substrates, such as stainless steel or
plastic films, to be used instead of customary glass substrates.
This means that previously unknown solar cells can also be
created, including solar cells that are round, square, or any
other complex shape or solar cells that can even be bent. It is
also possible to create areas in these solar cells that just
consist of transparent glass by etching.
High sensitivity within visible light spectrum
The human eye is sensitive to light from a range of about 400 to 700 nm wavelengths.
Since amorphous silicon solar cells are sensitive to light with essentially the same
wavelengths, they can also be used as visible light sensors.
Solar cells are classified by their material: crystal silicon, amorphous silicon, or
compound semiconductor solar cells. Amorphous refers to objects without a
definite shape and is defined as a non-crystal material. Unlike crystal silicon
(Fig. 2) in which atomic arrangements are regular, amorphous silicon features
irregular atomic arrangements (Fig. 1).
As a result, the reciprocal action between photons and silicon atoms occurs
more frequently in amorphous silicon than in crystal silicon, allowing more light
to be absorbed. Thus, an ultrathin amorphous silicon film less than 1 μm
(1/1000 of 1 mm) can be produced and used for power generation. Our compa-
ny developed Amorton, the world’s first integrated (series-connectable)
amorphous silicon solar cell, using decomposed material gases to form a film
on top of a series of substrates. For example, during the manufacturing
process that utilizes glass as a substrate, once the transparent electrode is
formed, a film of amorphous silicon is layered onto it. The metal film electrode
is then formed and finally the solar cell is covered with a protective film. Since
our patterning technology allows for multiple solar cells connected in series to
be created on a single substrate, solar cells of any chosen voltage can be
designed to suit any application.  
Amorphous Silicon Solar Cells
〝Amorton〞 is the product name of Panasonic’s Amorphous Silicon Solar Cells, which
was named by integrating amorphous silicon and photons (particles of light).
What is Amorton?
1975 : Research begins on amorphous silicon solar cells
1978 : Integrated (series connection structure) amorphous silicon solar cells are developed
1980 : 〝Amorton〞, world’s first amorphous silicon solar cells for comercial use, became a product
2010 : The production of one billion amorton
History
When a semiconductor is exposed to a light source of
suitable intensity, a large number of electrons
() and holes () are generated and form electricity.
●At a p/n junction between two different semiconductor
materials, the electrons are collected in the n-type materi-
al and the holes are collected in the p-type material by
internal electric field.
●When an external load is connected, electricity flows
through the load. Then generated electricity can be used.
Principles of Power Generation
Power is generated in solar cells due to the photovoltaic effect of semiconductors.
1
2
Features
Amorton applications : examples of use
Glass
Stainless steel
Film
Glass
Film
Glass
Representative substrate for such
purposes as calculators
Thin, lightweight, unbreakable, and
easily formed into arbitrary shapes
of highly precise dimensions
Thin, lightweight, unbreakable and
easily formed into arbitrary shapes
Representative substrate
For recharging secondary batteries
outdoors, etc.
Thin, lightweight, unbreakable, and
easily formed into arbitrary shapes
Supports designs for arbitrary
sizes and patterns as required for
applications
Location of use
Visible light sensor
Substrate References
Page 7
Contact us.
Contact us.
Page 7
Page 8
Page 8
Indoors
Features
Outdoors
Material’s exibility is limited.
Fig.1 Amorphous silicon
Fig.2 Crystal silicon
Light
Transparent
electrode
Metal
electrode
p
i
n
Electron
Hole
Load
Electric current
Electron
【Cell connection structure】
Crystalline silicon solar cells
Integrated amorphous silicon solar cells
[TypeⅡ connection]
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3'"..
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Wristwatches / Clocks / Wall clocks  Calculators
Energy-harvesting equipment
Wireless sensor networks / RFID tags / RF remote controls for digital home appliances, etc.
Power sources for multiple cards attached to displays
Power sources of wearable terminals  Toys  e-books
Garden lights, sensor lights, LED blinkers (curbstone markers, etc.)
Car accessories and battery chargers
Security devices  Power sources for other electric equipment and digital displays
Reduction of battery replacements and extension of battery life for appliances using dry cells and
coin batteries  loT
The power supply for human body sensors, the power supply for temperature & humidity sensors
 *Please contact us about replacing selenium cells.
Copes easily with device’s required drive voltage
Since multiple cells can be simultaneously connected in a series when the
solar cells are formed, unlike the fabrication technique used with crystalline
silicon solar cells in which multiple solar cells are severed and connected, it
is easy to create cells with a variety of voltages.
Variety of shapes and forms
The methods used in amorphous silicon films have special
features that allow other substrates, such as stainless steel or
plastic films, to be used instead of customary glass substrates.
This means that previously unknown solar cells can also be
created, including solar cells that are round, square, or any
other complex shape or solar cells that can even be bent. It is
also possible to create areas in these solar cells that just
consist of transparent glass by etching.
High sensitivity within visible light spectrum
The human eye is sensitive to light from a range of about 400 to 700 nm wavelengths.
Since amorphous silicon solar cells are sensitive to light with essentially the same
wavelengths, they can also be used as visible light sensors.
Solar cells are classified by their material: crystal silicon, amorphous silicon, or
compound semiconductor solar cells. Amorphous refers to objects without a
definite shape and is defined as a non-crystal material. Unlike crystal silicon
(Fig. 2) in which atomic arrangements are regular, amorphous silicon features
irregular atomic arrangements (Fig. 1).
As a result, the reciprocal action between photons and silicon atoms occurs
more frequently in amorphous silicon than in crystal silicon, allowing more light
to be absorbed. Thus, an ultrathin amorphous silicon film less than 1 μm
(1/1000 of 1 mm) can be produced and used for power generation. Our compa-
ny developed Amorton, the world’s first integrated (series-connectable)
amorphous silicon solar cell, using decomposed material gases to form a film
on top of a series of substrates. For example, during the manufacturing
process that utilizes glass as a substrate, once the transparent electrode is
formed, a film of amorphous silicon is layered onto it. The metal film electrode
is then formed and finally the solar cell is covered with a protective film. Since
our patterning technology allows for multiple solar cells connected in series to
be created on a single substrate, solar cells of any chosen voltage can be
designed to suit any application.  
Amorphous Silicon Solar Cells
〝Amorton〞 is the product name of Panasonic’s Amorphous Silicon Solar Cells, which
was named by integrating amorphous silicon and photons (particles of light).
What is Amorton?
1975 : Research begins on amorphous silicon solar cells
1978 : Integrated (series connection structure) amorphous silicon solar cells are developed
1980 : 〝Amorton〞, world’s first amorphous silicon solar cells for comercial use, became a product
2010 : The production of one billion amorton
History
When a semiconductor is exposed to a light source of
suitable intensity, a large number of electrons
() and holes () are generated and form electricity.
●At a p/n junction between two different semiconductor
materials, the electrons are collected in the n-type materi-
al and the holes are collected in the p-type material by
internal electric field.
●When an external load is connected, electricity flows
through the load. Then generated electricity can be used.
Principles of Power Generation
Power is generated in solar cells due to the photovoltaic eect of semiconductors.
1
2
Features
Amorton applications : examples of use
Glass
Stainless steel
Film
Glass
Film
Glass
Representative substrate for such
purposes as calculators
Thin, lightweight, unbreakable, and
easily formed into arbitrary shapes
of highly precise dimensions
Thin, lightweight, unbreakable and
easily formed into arbitrary shapes
Representative substrate
For recharging secondary batteries
outdoors, etc.
Thin, lightweight, unbreakable, and
easily formed into arbitrary shapes
Supports designs for arbitrary
sizes and patterns as required for
applications
Location of use
Visible light sensor
Substrate References
Page 7
Contact us.
Contact us.
Page 7
Page 8
Page 8
Indoors
Features
Outdoors
Material’s flexibility is limited.
Fig.1 Amorphous silicon
Fig.2 Crystal silicon
Light
Transparent
electrode
Metal
electrode
p
i
n
Electron
Hole
Load
Electric current
Electron
【Cell connection structure】
Crystalline silicon solar cells
Integrated amorphous silicon solar cells
[TypeⅡ connection]
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3
4
Amorton Configuration
Light-receiving
surface
Back
surface
Glass type
Glass
Transparent
electrode
Back electrode
Protective film
a-Si film
Light
Stainless steel type
Protective film
Transparent
electrode
Back electrode
Insulator film
Stainless steel
a-Si film
Light
Film type
Protective film
Transparent
electrode
Back electrode
Protective film
a-Si film
Light
The gure to the right shows Amortons electrical Properties
by current-voltage curves, which
change depending on the incident light intensity and on the
surrounding temperature of the solar cells.
Voc : Open-circuit voltage
Isc : Short-circuit current
Vpm : Optimum power operating voltage
Ipm : Optimum power operating current
Pm : Maximum power =Vpm x Ipm
Vope : Operating voltage (specified voltage)
Iope : Operating current
※Current drastically changes under Vpm or higher.
 For keeping the stable current under the anticipated illumination level,
 set the Vope as high as or lower than the Vpm.
View of Electrical Properties of Amorton
Current
Isc
Ipm
Vope Vpm Voc Voltage
Current-voltage curve
Iope
I=V/R
Straight
line of load
Pm
The current generated by solar cells is proportional to
their area. Therefore, when the cell area is doubled
under a specified illumination level, the current is also
doubled. When the number of cells is doubled, the volt-
age is doubled due to the circuit series. The electrical
properties specific to relevant use are available by
adjusting the number of solar cells and the cell area.
Current
Voltage
A
1 (*)
: one row of cells
(*)
Cell area
B
2
(*)
: one row of cells
C
1㎠
(*
: two row of cells
Relationship Between Number of Rows on Solar Cell
/Cell Area and Electrical Properties
Categories of Light Sources
Amorton is available for use under a variety of light sources.
Concerning sunlight
Since the nature of sunlight varies by season and climate, the conditions for
measuring the output of solar cells have been unified as a world standard.
AM (Air mass) is used for the sunlight spectrum.
AM indicates the distance traveled by the sunlight through space:
AM-0 in outer space, AM-1 when the sun is at the equator, and
AM-1.5 in the latitudinal area of Japan.
STC:Standard Test Conditions>
Solar irradiance: 1000W/㎡ (=100mW/㎠)
Spectrum: AM-1.5
Cell temperature: 25℃(degrees Celsius)
Radiant Spectrum of Light Source
and Spectral Sensitivity of Solar Cells
Brightness around Amorton is critical because it is used both indoors and outdoors.
Unit of luminous intensity is lux (lx).
Illumination Levels as References
Conditions Illumination levels (lx) Conditions
Illumination levels (lx)
Design stands
(partially illuminated)
1,000 Sunny, Noon 100,000
Offices and
conference rooms
300 ~ 600 Sunny, 1000 a.m. 65,000
Restaurants, coffee shops,
dressing/changing rooms
75 ~ 150 Sunny, 300 p.m. 35,000
Indoor emergency
staircases
less than 75 Cloudy, Noon 32,000
Fluorescent light Sunlight
Light wavelength differs
depending on the light sources
to which they are exposed.
Spectral sensitivity of solar
cells also differs depending on
the category.
Amorphous silicon solar cells
provide light-sensing capability
similar to the human eye.
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
1.0
0.8
0.6
0.4
0.2
400 500 600 700 800 900 1000 1100 1200
Wavelength [nm]
Radiant spectrum intensity (relative value)
Solar cell sensitivity to light spectrum (relative value)
Spectral sunlight (AM-1.5)
Fluorescent light (white)
a-Si solar cells
c-Si solar cells
Human eye sensitivity
to light spectrum
AM-0
AM-1.5
Air layer
Ther earth
AM-1
LED daylight(Panasonic)
Natural light
●Incandescentlight
●Fluorescent light Sunlight
●Electric discharge lamps
●Light-emitting diodes(LED)
Articial light
ppppppp
3
4
Amorton Configuration
Light-receiving
surface
Back
surface
Glass type
Glass
Transparent
electrode
Back electrode
Protective film
a-Si film
Light
Stainless steel type
Protective film
Transparent
electrode
Back electrode
Insulator film
Stainless steel
a-Si film
Light
Film type
Protective film
Transparent
electrode
Back electrode
Protective film
a-Si film
Light
The figure to the right shows Amorton’s electrical Properties
by current-voltage curves, which
change depending on the incident light intensity and on the
surrounding temperature of the solar cells.
Voc : Open-circuit voltage
Isc : Short-circuit current
Vpm : Optimum power operating voltage
Ipm : Optimum power operating current
Pm : Maximum power =Vpm x Ipm
Vope : Operating voltage (specified voltage)
Iope : Operating current
※Current drastically changes under Vpm or higher.
 For keeping the stable current under the anticipated illumination level,
 set the Vope as high as or lower than the Vpm.
View of Electrical Properties of Amorton
Current
Isc
Ipm
Vope Vpm Voc Voltage
Current-voltage curve
Iope
I=V/R
Straight
line of load
Pm
The current generated by solar cells is proportional to
their area. Therefore, when the cell area is doubled
under a specified illumination level, the current is also
doubled. When the number of cells is doubled, the volt-
age is doubled due to the circuit series. The electrical
properties specific to relevant use are available by
adjusting the number of solar cells and the cell area.
Current
Voltage
A
1 (*)
: one row of cells
(*)
Cell area
B
2㎠
(*)
: one row of cells
C
1㎠
(*
: two row of cells
Relationship Between Number of Rows on Solar Cell
/Cell Area and Electrical Properties
Categories of Light Sources
Amorton is available for use under a variety of light sources.
Concerning sunlight
Since the nature of sunlight varies by season and climate, the conditions for
measuring the output of solar cells have been unified as a world standard.
AM (Air mass) is used for the sunlight spectrum.
AM indicates the distance traveled by the sunlight through space:
AM-0 in outer space, AM-1 when the sun is at the equator, and
AM-1.5 in the latitudinal area of Japan.
STC:Standard Test Conditions
Solar irradiance: 1000W/ (=100mW/㎠)
Spectrum: AM-1.5
Cell temperature: 25℃(degrees Celsius)
Radiant Spectrum of Light Source
and Spectral Sensitivity of Solar Cells
Brightness around Amorton is critical because it is used both indoors and outdoors.
Unit of luminous intensity is lux (lx).
Illumination Levels as References
Conditions Illumination levels (lx) Conditions
Illumination levels (lx)
Design stands
(partially illuminated)
1,000 Sunny, Noon 100,000
Offices and
conference rooms
300 600 Sunny, 1000 a.m. 65,000
Restaurants, coffee shops,
dressing/changing rooms
75 150 Sunny, 300 p.m. 35,000
Indoor emergency
staircases
less than 75 Cloudy, Noon 32,000
Fluorescent light Sunlight
Light wavelength differs
depending on the light sources
to which they are exposed.
Spectral sensitivity of solar
cells also differs depending on
the category.
Amorphous silicon solar cells
provide light-sensing capability
similar to the human eye.
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
1.0
0.8
0.6
0.4
0.2
400 500 600 700 800 900 1000 1100 1200
Wavelength [nm]
Radiant spectrum intensity (relative value)
Solar cell sensitivity to light spectrum (relative value)
Spectral sunlight (AM-1.5)
Fluorescent light (white)
a-Si solar cells
c-Si solar cells
Human eye sensitivity
to light spectrum
AM-0
AM-1.5
Air layer
Ther earth
AM-1
LED daylight(Panasonic)
Natural light
●Incandescentlight
●Fluorescent light Sunlight
●Electric discharge lamps
●Light-emitting diodes(LED)
Articial light
Substram Wmilvflm Smncircumrrem Maximumpnwer Light suurca Owl-cirmilvnm Shmcircumrrem Maximumpowar Light snurce ) Owl-cirmilvnm Shmcircumrrem Maximumpowar Lightsource
5
6
Amorton Electrical Properties
Generally, the illuminance of natural light ranges from 10,000 to 100,000 lux.
Amorton’s outdoor illuminance specifications make it suitable for small devic-
es intended for use outdoors, such as outdoor lighting fixtures.
■Electrical Properties of Amorton for Outdoor Use (glass type)
Open-circuit voltage Short-circuit current
Maximum power
Light source
0.89V/cell
14. 8mA /c ㎡ 7. 8 9 m W /c ㎡
AM-1.5, 100mW/c㎡(25
Voc -0.3%/
Isc 0.08%/
Temperature coefficient
Current-Voltage Characteristics of a Cell
Voltage [V/cell]
Current [mA/㎠]
18
00 10.2 0.4 0.6 0.8
16
14
12
10
8
6
4
2
100mW/㎠ AM-1.5 25
Lightproof [Outdoors]
Exposure test [days]
[Light Variation Rate] lope
120
00 800200 400 600
20
40
60
80
100
Relationship between Output and Temperature
Temperature [℃]
Current [mA/]
26 1.2
1.0
0.8
0.6
0.4
0.2
0.0
8
-20 80
10
12
14
16
18
20
22
24
0 20 40 60
100mW/ AM-1.5
Voc
Isc
Iope
Relationship between Output and Illuminance
Illuminance [×103lx] (SS)
Current [mA/]
Voltage [V/cell]
18
1.8 0.1
1.0
5 50
Voc
Isc
Iope
■Electrical Properties of Amorton for Outdoor Use (film type)
Open-circuit voltage Short-circuit current
Maximum power
Light source
0.82V/cell 12.0 mA /c 5.6mW/cAM-1.5, 100mW/c㎡(25℃
Voc -0.3%/
Isc 0.08%/
Temperature coefficient
Lightproof [Outdoors]
Exposure test [days]
[Light Variation Rate] lope
120
00 800200 400 600
20
40
60
80
100
Relationship between Output and Illuminance
Illuminance [×103lx] (SS)
Current [mA/]
Voltage [V/cell]
18
1.8 0.1
1.0
5 50
Voc
Isc
Iope
Relationship between Output and Temperature
Temperature [℃]
Current [mA/]
Voltage [V/cell] Voltage [V/cell]
22 1.2
1.0
0.8
0.6
0.4
0.2
0.0
6
-20 800 20 40 60
8
10
12
14
16
18
20
Voc
Isc
Iope
100mW/ AM-1.5
Current-Voltage Characteristics of a Cell
Voltage [V/cell]
Current [mA/㎠]
14
0
0.0 1.00.2 0.4 0.6 0.8
2
4
6
8
10
12
100mW/㎠ AM-1.5 25
The illumination level of light sources used indoors, such as fluorescent or
incandescent light, ranges from 50 to 1,000 lux. Indoors, Amorton is most
suitable for such small equipment as electronic calculators.
(Since Amorton is designed for indoors use, please it under 1,000 lux.)
■Electrical Properties of Amorton for Indoor Use
Substrate
Open-circuit voltage Short-circuit current
Maximum power
Light source
Glass 0.63V/cell 17. 0μ A / c ㎡ 7. 3μ W/c ㎡ FL-200lx(25℃)
Film 0.7V/cell 19.6μA /c 9.W/cFL-200lx(25℃)
Voc -0.45%/
Isc 0.08%/
Temperature coefficient
Current-Voltage Characteristics of a Cell
Voltage [V/cell]
Current [μA/㎠]
20
15
10
5
000.2 0.4 0.6 0.8
at 200lx FL(25℃)
Relationship between Output and Illuminance
Illuminance [lx]
Current [μA/]
Voltage [V/cell]
1000
100
1
1.0
0.1
20 2000200
10
Voc
Isc
Iope
Relationship between Output and Temperature
Temperature [℃]
Current [μA/]
Voltage [V/cell]
26
8
10
12
14
16
18
20
22
24
0.8
0.6
0.4
0.2
0.0
-20 0 20 40 60 80
Voc
Isc
Iope
at 200lx FL
FL=uorescent light
(※)SSsolar simulator
(※)SSsolar simulator
d Temvuamve cnefimem Va :2 VD awn/'0 I s c Dam/x: / F Tamvuamve cneficIem Vac 0.3% 'c I s c Dam/x: / / fl Tamvuamve cnefimem Vac 0.3% 'c I s c Dam/x:
5
6
Amorton Electrical Properties
Generally, the illuminance of natural light ranges from 10,000 to 100,000 lux.
Amorton’s outdoor illuminance specifications make it suitable for small devic-
es intended for use outdoors, such as outdoor lighting fixtures.
Electrical Properties of Amorton for Outdoor Use (glass type)
Open-circuit voltage Short-circuit current
Maximum power
Light source
0.89V/cell
14. 8mA /c 7. 8 9 m W /c
AM-1.5, 100mW/c(25℃)
Voc -0.3%/
Isc 0.08%/
Temperature coefficient
Current-Voltage Characteristics of a Cell
Voltage [V/cell]
Current [mA/]
18
00 10.2 0.4 0.6 0.8
16
14
12
10
8
6
4
2
100mW/ AM-1.5 25
Lightproof [Outdoors]
Exposure test [days]
[Light Variation Rate] lope
120
00 800200 400 600
20
40
60
80
100
Relationship between Output and Temperature
Temperature [℃]
Current [mA/㎠]
26 1.2
1.0
0.8
0.6
0.4
0.2
0.0
8
-20 80
10
12
14
16
18
20
22
24
0 20 40 60
100mW/㎠ AM-1.5
Voc
Isc
Iope
Relationship between Output and Illuminance
Illuminance [×103lx] (SS)
Current [mA/㎠]
Voltage [V/cell]
18
1.8 0.1
1.0
5 50
Voc
Isc
Iope
Electrical Properties of Amorton for Outdoor Use (lm type)
Open-circuit voltage Short-circuit current
Maximum power
Light source
0.82V/cell 12.0 mA /c 5.6mW/c AM-1.5, 100mW/c(25℃)
Voc -0.3%/
Isc 0.08%/
Temperature coefficient
Lightproof [Outdoors]
Exposure test [days]
[Light Variation Rate] lope
120
00 800200 400 600
20
40
60
80
100
Relationship between Output and Illuminance
Illuminance [×103lx] (SS)
Current [mA/㎠]
Voltage [V/cell]
18
1.8 0.1
1.0
5 50
Voc
Isc
Iope
Relationship between Output and Temperature
Temperature [℃]
Current [mA/㎠]
Voltage [V/cell] Voltage [V/cell]
22 1.2
1.0
0.8
0.6
0.4
0.2
0.0
6
-20 800 20 40 60
8
10
12
14
16
18
20
Voc
Isc
Iope
100mW/㎠ AM-1.5
Current-Voltage Characteristics of a Cell
Voltage [V/cell]
Current [mA/]
14
0
0.0 1.00.2 0.4 0.6 0.8
2
4
6
8
10
12
100mW/ AM-1.5 25
The illumination level of light sources used indoors, such as fluorescent or
incandescent light, ranges from 50 to 1,000 lux. Indoors, Amorton is most
suitable for such small equipment as electronic calculators.
(Since Amorton is designed for indoors use, please it under 1,000 lux.)
Electrical Properties of Amorton for Indoor Use
Substrate
Open-circuit voltage Short-circuit current
Maximum power
Light source
Glass 0.63V/cell 17. 0μ A / c 7. 3μ W/c FL-200lx(25℃)
Film 0.7V/cell 19.6μA /c 9.W/c FL-200lx(25℃)
Voc -0.45%/
Isc 0.08%/
Temperature coefficient
Current-Voltage Characteristics of a Cell
Voltage [V/cell]
Current [μA/]
20
15
10
5
000.2 0.4 0.6 0.8
at 200lx FL(25℃)
Relationship between Output and Illuminance
Illuminance [lx]
Current [μA/㎠]
Voltage [V/cell]
1000
100
1
1.0
0.1
20 2000200
10
Voc
Isc
Iope
Relationship between Output and Temperature
Temperature [℃]
Current [μA/㎠]
Voltage [V/cell]
26
8
10
12
14
16
18
20
22
24
0.8
0.6
0.4
0.2
0.0
-20 0 20 40 60 80
Voc
Isc
Iope
at 200lx FL
FL=uorescent light
(※)SSsolar simulator
(※)SSsolar simulator
Flumescenz Iigm : 25051 (25°C) mm above Danems are representative Dueramx Dalterns “mum/5515511 vames) za an avallable 150mW/cn1 5111512512) 5550151112512) Emma] mmsnm (my Vanwape Pm (VDmem) Vanwnpe Pm (VDmJDm) M15505 1,7v55.5mA II7mW (1.9v51.5mM 1,7v51.1mA 55mw (km/729.2151” 50,1x47,2x1.1 5.4 M15302 1 7110551104 151mw (1,9V795.5mA) 1,7V7A7flmA 55mw (1 5145 um 31 2x1175x1 5 15,3 M15413 2,2V716.7mA aamw (2.6V715.DmA) 2.2vr 5mA 15mw (2,6Vr7.ImM 53,5x23,5x1.1 2.1 M15412 2253951104 Qamw (2,5v55.5mM 2,2V7173mA mm (2 5vr15 5mM 50,1x531x1 a 7 a M15510 3.3V75JmA 15mw (sax/4.5m) 3.35 5am 5am (3,5v722mM 25,5x20,5x1.5 2.2 M15513 3553151104 115mw (3,9V7252mA) 5551451“ 52mW (a 5113 MM 50,1x557x1 a 5 a M15505 a,5v:45.5mA 125mw (3.9v520mM 3,3V7165mA 59mW (Am/45.115110 50,1x41,3x1.5 11.0 M15505 5 3V4 15,4mA 401mw 415110271“) 5555251“ 159m (3 5145 5mM 52 3x1175x1 5 32,5 M15705 3,5V493mA 51mw (4.6Vrl7.7mA) 3.9vr DmA 39mW (4,5v5.3mM 55,1x41,3x1.1 4.1 M15704 3,5v723,5mA 97mw (451121.0mM JSVVIOJMA 45mw (4,559 mm 41,2x415x1 1 4 5 M15703 3,5v52.1mA 131mw (4.6V7285mA) 3,5V7145MA 52mw (LE/43.415110 41,2x55,1x1.1 5.2 M15710 3553251104 154nm (451125.0mM JSVVIAJMA 53mw (4 5113 MM 52,5x575x1 1 5 a M15702 3,5v54.4mA 145mw (4.6V305mA) 3,5V45.5mA 57mw (LE/44.415110 57,7x41,3x1.1 5.5 M15705 3,5v7455mA 155mw (4,5v45.5mM 5,5v721,5mA 55mw (4 5119 um 70,5x505x15 15,5 M15701 3,5v45.5mA 195nm (4.5v41.2mM 3,5V721.DmA 50mw (LE/49.415110 57,7x55,1x1.1 5.5 M15515 4511251“ 12mw (5.2V72.3mA) 4511111104 5mw (5211 um 51,2x105x1 1 5 9 M15515 4.5v5.5mA 52mw (5.2v5.2mM 4.5v5.5mA 15.110415212511110 52,1x23,5x1.1 2.2 M15512 A,5V719,EmA Qamw (521117.5mM 451/551“ 44mw (5,255 mm 59,5x257x1 1 4 5 M15513 4,5V725.DmA II7mW (5.2V722.6mA) 4,5VVIIAMA 55mW (5.2V4DJMM 41,2x50,2x1.1 5.7 M15504 A,5V733,3mA 155mw (52555.0mM 4,5V7151mA 7AmW (5 2114 2mM 45,1x551x1 1 7 2 M15514 4,5v555mA 155nm (5.2va4.7mM 4,5V717.4«1A 55mw (52111541150 55,1x50,1x1.1 5.0 M15501 4,5541 ,5mA 195mw (52557.7mM 4,5V7183mA 53mw (5 2147 5mM 57,7x55,1x1 1 5 5 M15504 5.0V793mA 52mw (5.9V .7mM 5.0v4.5mA 40,1x53,1x1.5 5.9 M15512 5,0V7153mA anmw (591113.5mM 5,011 mm 42,5x472x1 1 55 M15509 5,DV722.2mA 115mw (5.9V719.6mA) 5,DV710.1mA 50,1x41,3x1.5 11.0 M15514 5552111104 121mw (591125.4mA) 5,0V7105mA 50,1x551x1 1 7 5 M15513 5,5v50.1mA 157mW (5.9V726.6mfl) 5,DV713.EmA 50,1x55,1x1.5 14.7 M15507 5,0V7A5,7mA 241mw (591145.5mA) 5,0V7205mA 75,5x555x1 5 15,3 M15502 5,5v50.5mA 317mw (5.9V753.7mA) 5,DV727.EmA 150,5x57,5x1.5 25.0 M17A53 5 5V7227,flmA 1535mw 45,5v7202.3mA) 5,5vr1 13,5mA 155 5x1555x1 5 110,5 M17005 7.2V472.DmA 1503mw (5.5V71532mA) 7,2v55.5mA 155.5x155,5x1.5 110,5 M15552 7752121104 155mw (521125.5m5) 7,7V710,6mA 75,5x555x1 5 15,3 M17554 7.7V4DI.DMA 552mw (5.2v792.5mM 7,7v50.5mA 155.5x110,5x1.5 74.0 M15555 15451141104 155mw HEAVrmlmfl) 15411511“ 124,5x295x1 1 10,0 M17553 15,AV770.DmA 1133mw (15.4v51.5mM 15,4v54.5mA 155.5x155,5x1.5 110,5
Length
Width
Length
Width
Length
Width
7
8
■Indoor products
■Outdoor products
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
Note : The above table shows standard weights, excluding lead.
AM-5308
AM-5302
AM-5413
AM-5412
AM-5610
AM-5613
AM-5608
AM-5605
AM-8706
AM-8704
AM-8703
AM-5710
AM-8702
AM-5706
AM-8701
AM-5815
AM-5816
AM-5812
AM-5813
AM-8804
AM-5814
AM-8801
AM-5904
AM-5912
AM-5909
AM-5914
AM-5913
AM-5907
AM-5902
AM-7A03
AM-7D08
AM-5E02
AM-7E04
AM-5S06
AM-7S03
Products name
6.4
16.3
2.1
7.3
2.2
9.8
11.0
32.5
4.1
4.6
6.2
6.3
6.5
15.5
8.6
0.9
2.2
4.6
6.7
7.2
9.0
8.6
5.9
5.6
11.0
7.5
14.7
18.3
25.0
110.0
110.0
18.3
74.0
10.0
110.0
Weight (g)
100mW/c AM-1.5(25℃)
1.7V-68.8mA
1.7V-105.0mA
2.2V-16.7mA
2.2V-39.8mA
3.3V-5.1mA
3.3V-31.6mA
3.3V-36.0mA
3.3V-115.4mA
3.9V-19.9mA
3.9V-23.8mA
3.9V-32.1mA
3.9V-32.6mA
3.9V-34.4mA
3.9V-45.9mA
3.9V-46.6mA
4.5V-2.5mA
4.5V-6.5mA
4.5V-19.8mA
4.5V-25.0mA
4.5V-33.3mA
4.5V-38.6mA
4.5V-41.9mA
5.0V-9.9mA
5.0V-15.3mA
5.0V-22.2mA
5.0V-23.1mA
5.0V-30.1mA
5.0V-45.7mA
5.0V-60.8mA
5.5V-227.0mA
7.2V-172.0mA
7.7V-23.2mA
7.7V-104.0mA
15.4V-11.4mA
15.4V-70.0mA
Vope-Iope
117mW (1.9V-61.5mA)
181mW (1.9V-95.5mA)
39mW (2.6V-15.0mA)
93mW (2.6V-35.8mA)
18mW (3.9V-4.6mA)
110mW (3.9V-28.2mA)
125mW (3.9V-32.0mA)
401mW (3.9V-102.7mA)
81mW (4.6V-17.7mA)
97mW (4.6V-21.0mA)
131mW (4.6V-28.5mA)
134mW (4.6V-29.0mA)
140mW (4.6V-30.5mA)
186mW (4.6V-40.5mA)
190mW (4.6V-41.2mA)
12mW (5.2V-2.3mA)
32mW(5.2V-6.2mA)
93mW (5.2V-17.8mA)
117mW (5.2V-22.6mA)
156mW (5.2V-30.0mA)
180mW (5.2V-34.7mA)
196mW (5.2V-37.7mA)
52mW (5.9V-8.7mA)
80mW (5.9V-13.6mA)
116mW (5.9V-19.6mA)
121mW (5.9V-20.4mA)
157mW (5.9V-26.6mA)
241mW (5.9V-40.8mA)
317mW (5.9V-53.7mA)
1336mW (6.6V-202.3mA)
1303mW (8.5V-153.2mA)
189mW (9.2V-20.5mA)
852mW (9.2V-92.6mA)
188mW (18.4V-10.2mA)
1133mW (18.4V-61.6mA)
Pm(Vpm-Ipm)
SS-50klx(25℃)
1.7V-31.1mA
1.7V-47.0mA
2.2V-7.5mA
2.2V-17.9mA
3.3V-2.3mA
3.3V-14.5mA
3.3V-16.5mA
3.3V-52.9mA
3.9V-9.0mA
3.9V-10.7mA
3.9V-14.5mA
3.9V-14.7mA
3.9V-15.5mA
3.9V-21.0mA
3.9V-21.0mA
4.5V-1.1mA
4.5V-3.0mA
4.5V-8.9mA
4.5V-11.3mA
4.5V-15.1mA
4.5V-17.4mA
4.5V-18.9mA
5.0V-4.5mA
5.0V-7.0mA
5.0V-10.1mA
5.0V-10.6mA
5.0V-13.8mA
5.0V-20.6mA
5.0V-27.8mA
5.5V-113.0mA
7.2V-85.0mA
7.7V-10.6mA
7.7V-50.0mA
15.4V-5.1mA
15.4V-34.5mA
Vope-Iope
58mW (1.9V-29.2mA)
86mW (1.9V-45.1mA)
18mW (2.6V-7.1mA)
44mW (2.6V-16.9mA)
8mW (3.9V-2.2mA)
52mW (3.9V-13.3mA)
59mW (3.9V-15.1mA)
189mA (3.9V-48.6mA)
39mW (4.6V-8.3mA)
46mW (4.6V-9.9mA)
62mW (4.6V-13.4mA)
63mW (4.6V-13.7mA)
67mW (4.6V-14.4mA)
88mW (4.6V-19.1mA)
90mW (4.6V-19.4mA)
6mW (5.2V-1.1mA)
15mW(5.2V-2.9mA)
44mW (5.2V-8.4mA)
55mW (5.2V-10.7mA)
74mW (5.2V-14.2mA)
85mW (5.2V-16.4mA)
93mW (5.2V-17.8mA)
24mW (5.9V-4.1mA)
38mW (5.9V-6.4mA)
55mW (5.9V-9.3mA)
57mW (5.9V-9.7mA)
74mW (5.9V-12.6mA)
114mW (5.9V-19.3mA)
150mW (5.9V-25.4mA)
702mW (6.6V-106.3mA)
684mW (8.5V-80.5mA)
89mW (9.2V-9.7mA)
447mW (9.2V-48.6mA)
89mW (18.4V-4.8mA)
595mW (18.4V-32.4mA)
Pm(Vpm-Ipm)
External dimensions (mm)
50.1×47.2×1.1
31.2×117.8×1.8
33.0×23.9×1.1
50.1×33.1×1.8
25.0×20.0×1.8
60.1×36.7×1.8
60.1×41.3×1.8
62.3×117.8×1.8
36.1×41.3×1.1
41.2×41.3×1.1
41.2×55.1×1.1
62.3×37.0×1.1
57.7×41.3×1.1
70.0×50.0×1.8
57.7×55.1×1.1
31.2×10.8×1.1
32.1×23.6×1.1
59.0×28.7×1.1
41.2×60.2×1.1
48.1×55.1×1.1
55.1×60.1×1.1
57.7×55.1×1.1
40.1×33.1×1.8
42.9×47.2×1.1
60.1×41.3×1.8
50.1×55.1×1.1
60.1×55.1×1.8
75.0×55.0×1.8
150.0×37.5×1.8
150.0×165.0×1.8
150.0×165.0×1.8
75.0×55.0×1.8
150.0×110.0×1.8
124.5×29.5×1.1
150.0×165.0×1.8
Width x length x thickness
※The above patterns are representative operating patterns (initial/default values). ※SS : solar simulator
Fluorescent light : 200lx (25℃)
※The above patterns are representative operating patterns (initial/default values).
Amorton Product List (made with a glass substrate)
AT-7665
AT-7664
AT-7666
AT-7705
AT-7802
AT-7963
AT-7S63
AT-7S64
Products name
2.0
4.0
13.0
4.0
4.0
13.0
25.0
50.0
Weight (g)
100mW/c AM-1.5(25℃)
3.0V-38.6mA
3.0V-104.0mA
3.0V-343.0mA
3.5V-33.3mA
4.0V-29.7mA
4.5V-223.0mA
15.0V-134.0mA
15.0V-269.0mA
Vope-Iope
125mW (3.6V-34.7mA)
335mW (3.6V-93.0mA)
1109mW (3.6V-308.2mA)
128mW (4.2V-30.5mA)
127mW (4.8V-26.4mA)
1083mW (5.4V-200.6mA)
2104mW (16.8V-125.2mA)
4208mW (16.8V-250.4mA)
Pm(Vpm-Ipm)
SS-50klx(25℃)
3.0V-17.3mA
3.0V-46.5mA
3.0V-154.0mA
3.5V-16.2mA
4.0V-14.3mA
4.5V-100.0mA
15.0V-60.5mA
15.0V-121.0mA
Vope-Iope
58mW (3.6V-16.2mA)
156mW (3.6V-43.3mA)
517mW (3.6V-143.6mA)
62mW (4.2V-14.7mA)
62mW (4.8V-12.9mA)
505mW (5.4V-93.5mA)
980mW (16.8V-58.3mA)
1960mW (16.8V-116.7mA)
Pm(Vpm-Ipm)
External dimensions (mm)
58.4×56.0×0.3
73.0×112.0×0.3
146.0×167.5×0.3
73.0×42.0×0.3
73.0×42.0×0.3
146.0×167.5×0.3
292.0×168.0×0.3
292.0×336.0×0.3
Width x length x thickness
Outdoor products
Amorton Product List (made with a film substrate)
AL-2402
AT-2400B
AT-26L0B
AM-2709B
Products name
0.7
0.1
0.1
1.3
Weight (g)Substrate
Stainless steel
Film
Film
Glass
1.5V-10.1μA
1.5V-18.5μA
2.6V-14.6μA
3.0V-3.3μA
Vope-Iope
Fluorescent light : 200lx (25℃)
External dimensions (mm)
φ27.2×0.2
26.3×26.8×0.18
26.3×26.8×0.18
φ30.8×0.7
Width x length x thickness
※The above patterns are representative operating patterns (initial/default values).
AL-2402 AT-2400B AT-26L0B AM-2709B
Amorton Product List (watches)
AM-30-11
Products name Substrate
Glass
Voc
0.6V
External dimensions (mm)
14.0×13.0×1.1
Width x Length x Thickness
Fluorescent light:
200
lx(25℃)
17.7μA
Isc Weight(g)
0.6
Amorton Product List (photosensors)
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Note : The above table shows standard weights, excluding lead.
※The above patterns are representative operating patterns (initial/default values). ※SS : solar simulator
AM-1312
AM-1456
AM-1411
AM-1437
AM-1407
AM-1417
AM-1424
AM-1454
AM-1513
AM-1522
AM-1606
AM-1713
AM-1719
AM-1819
AM-1820
AM-1805
AM-1801
AM-1815
AM-1816
Products name
1.3
0.7
1.0
1.0
1.3
1.3
2.0
3.0
2.0
6.3
0.4
2.7
3.1
2.2
3.1
3.0
3.6
7.8
15.6
Weight (g)
1.9V
2.5V
2.5V
2.5V
2.5V
2.5V
2.5V
2.5V
3.1V
3.1V
3.7V
4.4V
4.4V
5.0V
5.0V
5.0V
5.0V
5.0V
5.0V
Voc
17.6μA
6 . 4μA
9 . 5μA
9 . 2μA
13.1μA
14.1μA
22.0μA
35.2μA
16.8μA
62.2μA
3 . 6μA
16.7μA
18.6μA
8 . 1μA
14.8μA
16.8μA
20.2μA
48.2μA
96.7μA
Isc
1.2V-16.2μA
1.5V-5.9μA
1.5V-8.6μA
1.5V-8.5μA
1.5V-12.2μA
1.5V-13.3μA
1.5V-20.6μA
1.5V-33.3μA
1.8V-15.9μA
2.1V-58.7μA
2.6V-3.4μA
3.0V-15.2μA
3.0V-17.3μA
3.0V-6.9μA
3.0V-13.8μA
3.0V-15.7μA
3.0V-18.9μA
3.0V-45.7μA
3.0V-92.2μA
Vope-Iope
External dimensions (mm)
38.0×12.5×1.1
25.0×10.0×1.1
29.6×11.8×1.1
29.6×11.8×1.1
38.0×12.5×1.1
35.0×13.9×1.1
53.0×13.8×1.1
41.6×26.3×1.1
55.0×13.5×1.1
55.0×40.5×1.1
15.0×15.0×0.7
96.6×10.0×1.1
41.6×26.3×1.1
31.0×24.0×1.1
43.0×26.0×1.1
55.0×20.0×1.1
53.0×25.0×1.1
58.1×48.6×1.1
96.7×56.7×1.1
Width x length x thickness
NEW
How to look at the Products name
A M ̶14 07C ̶ O O
AM Glass type
AL Stainless steel type
AT Film type
:Indoor products
:Watches
5、7、8 :Outdoor products
30 :Photosensors
Kind of the substrate
Number of cells
(Series connection)
1:  1 cell
2:  2 cell
3:  3 cell
   ・
   ・
A:   cell
B:   cell
Development
Number
Customer number
Terminal structures
01
02
 ・
 ・
99
A0
A1
 ・
 ・
We give the customer number
at the time of a mass production
CACAR :With lead wire
、C 、C :Without lead wire
Custom aton ava abl IMmW/cnl AM-L5125'C) 3550ka 125's! Emmi‘ imam: 1mm) VDDEVIope Pm (VDmVlnm) Vouelope Pm (VDmVlnm) “77655 anvoasmA 125mm (3.5v434.7mA) 3.07173.“ SBMW (Lawsmm sausaaxm 2,17 ATJSSA 3 DVJMHMA 335nm (3.5V793.DmA) 3.0V46.5mA Issmw (3 sv43 3mm 73 DXI 12mm 3 4,0 Awess 3.0734101“ noemw (asvaommm 3.0V715A0mA 517mW (3.6v4435mm IAE.0XIE7,5XD.3 13.0 ”77705 3,5V73313mA IZEMW (am/30.5mm 3.5Vrls.2mA 62mW (4 NM 7mA) 73,0x42nxa 3 4,0 “77502 4,DV729,7mA IZ7mW (AswzfiArnA) 4.07143.“ smw (Lavr‘szM 73,0x42,axn.3 A,» Awasa A 5v72mnmA mamw (swimmsm) 4.5Vrmfl.0mA sasmw (5 4793 am) we ansuxa 3 13 o Awssa 15.073340” 21me (usswmm) 15.0%».5.“ samnw (IEJVrEEJMM zszaxtsenxm 25.0 - ”77554 15 nvrzssnmA AZGBmW (IEJVrZSDAmA) 15.0v421.0mA 196me (16.5w Is 7mA) 292 nx33snxa 3 so 0 vane-lope Fluorescent ugh znmx (25°C) “72402 Stainless steel stmuA oz7.2xo,2 0.7 Ammo: him 1 5w 3 mm 26.3x26.axa IE 0.1 ATVZELDB Film zewmuA 26.3X26.EXD.IE 0.1 AM727DSE mass :mva auA «£0.3on 1.3 mom ‘ G‘ass Dov 17.7uA u,ax13.ax1.1 0.6 How to look at the Products na AM—1407C OO
Length
Width
Length
Width
Length
Width
7
8
Indoor products
Outdoor products
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Customization
available
Note : The above table shows standard weights, excluding lead.
AM-5308
AM-5302
AM-5413
AM-5412
AM-5610
AM-5613
AM-5608
AM-5605
AM-8706
AM-8704
AM-8703
AM-5710
AM-8702
AM-5706
AM-8701
AM-5815
AM-5816
AM-5812
AM-5813
AM-8804
AM-5814
AM-8801
AM-5904
AM-5912
AM-5909
AM-5914
AM-5913
AM-5907
AM-5902
AM-7A03
AM-7D08
AM-5E02
AM-7E04
AM-5S06
AM-7S03
Products name
6.4
16.3
2.1
7.3
2.2
9.8
11.0
32.5
4.1
4.6
6.2
6.3
6.5
15.5
8.6
0.9
2.2
4.6
6.7
7.2
9.0
8.6
5.9
5.6
11.0
7.5
14.7
18.3
25.0
110.0
110.0
18.3
74.0
10.0
110.0
Weight (g)
100mW/c AM-1.5(25℃)
1.7V-68.8mA
1.7V-105.0mA
2.2V-16.7mA
2.2V-39.8mA
3.3V-5.1mA
3.3V-31.6mA
3.3V-36.0mA
3.3V-115.4mA
3.9V-19.9mA
3.9V-23.8mA
3.9V-32.1mA
3.9V-32.6mA
3.9V-34.4mA
3.9V-45.9mA
3.9V-46.6mA
4.5V-2.5mA
4.5V-6.5mA
4.5V-19.8mA
4.5V-25.0mA
4.5V-33.3mA
4.5V-38.6mA
4.5V-41.9mA
5.0V-9.9mA
5.0V-15.3mA
5.0V-22.2mA
5.0V-23.1mA
5.0V-30.1mA
5.0V-45.7mA
5.0V-60.8mA
5.5V-227.0mA
7.2V-172.0mA
7.7V-23.2mA
7.7V-104.0mA
15.4V-11.4mA
15.4V-70.0mA
Vope-Iope
117mW (1.9V-61.5mA)
181mW (1.9V-95.5mA)
39mW (2.6V-15.0mA)
93mW (2.6V-35.8mA)
18mW (3.9V-4.6mA)
110mW (3.9V-28.2mA)
125mW (3.9V-32.0mA)
401mW (3.9V-102.7mA)
81mW (4.6V-17.7mA)
97mW (4.6V-21.0mA)
131mW (4.6V-28.5mA)
134mW (4.6V-29.0mA)
140mW (4.6V-30.5mA)
186mW (4.6V-40.5mA)
190mW (4.6V-41.2mA)
12mW (5.2V-2.3mA)
32mW(5.2V-6.2mA)
93mW (5.2V-17.8mA)
117mW (5.2V-22.6mA)
156mW (5.2V-30.0mA)
180mW (5.2V-34.7mA)
196mW (5.2V-37.7mA)
52mW (5.9V-8.7mA)
80mW (5.9V-13.6mA)
116mW (5.9V-19.6mA)
121mW (5.9V-20.4mA)
157mW (5.9V-26.6mA)
241mW (5.9V-40.8mA)
317mW (5.9V-53.7mA)
1336mW (6.6V-202.3mA)
1303mW (8.5V-153.2mA)
189mW (9.2V-20.5mA)
852mW (9.2V-92.6mA)
188mW (18.4V-10.2mA)
1133mW (18.4V-61.6mA)
Pm(Vpm-Ipm)
SS-50klx(25℃)
1.7V-31.1mA
1.7V-47.0mA
2.2V-7.5mA
2.2V-17.9mA
3.3V-2.3mA
3.3V-14.5mA
3.3V-16.5mA
3.3V-52.9mA
3.9V-9.0mA
3.9V-10.7mA
3.9V-14.5mA
3.9V-14.7mA
3.9V-15.5mA
3.9V-21.0mA
3.9V-21.0mA
4.5V-1.1mA
4.5V-3.0mA
4.5V-8.9mA
4.5V-11.3mA
4.5V-15.1mA
4.5V-17.4mA
4.5V-18.9mA
5.0V-4.5mA
5.0V-7.0mA
5.0V-10.1mA
5.0V-10.6mA
5.0V-13.8mA
5.0V-20.6mA
5.0V-27.8mA
5.5V-113.0mA
7.2V-85.0mA
7.7V-10.6mA
7.7V-50.0mA
15.4V-5.1mA
15.4V-34.5mA
Vope-Iope
58mW (1.9V-29.2mA)
86mW (1.9V-45.1mA)
18mW (2.6V-7.1mA)
44mW (2.6V-16.9mA)
8mW (3.9V-2.2mA)
52mW (3.9V-13.3mA)
59mW (3.9V-15.1mA)
189mA (3.9V-48.6mA)
39mW (4.6V-8.3mA)
46mW (4.6V-9.9mA)
62mW (4.6V-13.4mA)
63mW (4.6V-13.7mA)
67mW (4.6V-14.4mA)
88mW (4.6V-19.1mA)
90mW (4.6V-19.4mA)
6mW (5.2V-1.1mA)
15mW(5.2V-2.9mA)
44mW (5.2V-8.4mA)
55mW (5.2V-10.7mA)
74mW (5.2V-14.2mA)
85mW (5.2V-16.4mA)
93mW (5.2V-17.8mA)
24mW (5.9V-4.1mA)
38mW (5.9V-6.4mA)
55mW (5.9V-9.3mA)
57mW (5.9V-9.7mA)
74mW (5.9V-12.6mA)
114mW (5.9V-19.3mA)
150mW (5.9V-25.4mA)
702mW (6.6V-106.3mA)
684mW (8.5V-80.5mA)
89mW (9.2V-9.7mA)
447mW (9.2V-48.6mA)
89mW (18.4V-4.8mA)
595mW (18.4V-32.4mA)
Pm(Vpm-Ipm)
External dimensions (mm)
50.1×47.2×1.1
31.2×117.8×1.8
33.0×23.9×1.1
50.1×33.1×1.8
25.0×20.0×1.8
60.1×36.7×1.8
60.1×41.3×1.8
62.3×117.8×1.8
36.1×41.3×1.1
41.2×41.3×1.1
41.2×55.1×1.1
62.3×37.0×1.1
57.7×41.3×1.1
70.0×50.0×1.8
57.7×55.1×1.1
31.2×10.8×1.1
32.1×23.6×1.1
59.0×28.7×1.1
41.2×60.2×1.1
48.1×55.1×1.1
55.1×60.1×1.1
57.7×55.1×1.1
40.1×33.1×1.8
42.9×47.2×1.1
60.1×41.3×1.8
50.1×55.1×1.1
60.1×55.1×1.8
75.0×55.0×1.8
150.0×37.5×1.8
150.0×165.0×1.8
150.0×165.0×1.8
75.0×55.0×1.8
150.0×110.0×1.8
124.5×29.5×1.1
150.0×165.0×1.8
Width x length x thickness
※The above patterns are representative operating patterns (initial/default values). ※SS : solar simulator
Fluorescent light : 200lx (25℃)
※The above patterns are representative operating patterns (initial/default values).
Amorton Product List (made with a glass substrate)
AT-7665
AT-7664
AT-7666
AT-7705
AT-7802
AT-7963
AT-7S63
AT-7S64
Products name
2.0
4.0
13.0
4.0
4.0
13.0
25.0
50.0
Weight (g)
100mW/c AM-1.5(25℃)
3.0V-38.6mA
3.0V-104.0mA
3.0V-343.0mA
3.5V-33.3mA
4.0V-29.7mA
4.5V-223.0mA
15.0V-134.0mA
15.0V-269.0mA
Vope-Iope
125mW (3.6V-34.7mA)
335mW (3.6V-93.0mA)
1109mW (3.6V-308.2mA)
128mW (4.2V-30.5mA)
127mW (4.8V-26.4mA)
1083mW (5.4V-200.6mA)
2104mW (16.8V-125.2mA)
4208mW (16.8V-250.4mA)
Pm(Vpm-Ipm)
SS-50klx(25℃)
3.0V-17.3mA
3.0V-46.5mA
3.0V-154.0mA
3.5V-16.2mA
4.0V-14.3mA
4.5V-100.0mA
15.0V-60.5mA
15.0V-121.0mA
Vope-Iope
58mW (3.6V-16.2mA)
156mW (3.6V-43.3mA)
517mW (3.6V-143.6mA)
62mW (4.2V-14.7mA)
62mW (4.8V-12.9mA)
505mW (5.4V-93.5mA)
980mW (16.8V-58.3mA)
1960mW (16.8V-116.7mA)
Pm(Vpm-Ipm)
External dimensions (mm)
58.4×56.0×0.3
73.0×112.0×0.3
146.0×167.5×0.3
73.0×42.0×0.3
73.0×42.0×0.3
146.0×167.5×0.3
292.0×168.0×0.3
292.0×336.0×0.3
Width x length x thickness
■Outdoor products
Amorton Product List (made with a film substrate)
AL-2402
AT-2400B
AT-26L0B
AM-2709B
Products name
0.7
0.1
0.1
1.3
Weight (g)Substrate
Stainless steel
Film
Film
Glass
1.5V-10.1μA
1.5V-18.5μA
2.6V-14.6μA
3.0V-3.3μA
Vope-Iope
Fluorescent light : 200lx (25℃)
External dimensions (mm)
φ27.2×0.2
26.3×26.8×0.18
26.3×26.8×0.18
φ30.8×0.7
Width x length x thickness
※The above patterns are representative operating patterns (initial/default values).
AL-2402 AT-2400B AT-26L0B AM-2709B
Amorton Product List (watches)
AM-30-11
Products name Substrate
Glass
Voc
0.6V
External dimensions (mm)
14.0×13.0×1.1
Width x Length x Thickness
Fluorescent light:
200
lx(25℃)
17.7μA
Isc Weight(g)
0.6
Amorton Product List (photosensors)
The following are the standard products included in our lineup.
Designs may be customized based on requests. For inquiries, please refer to the back cover.
Note : The above table shows standard weights, excluding lead.
※The above patterns are representative operating patterns (initial/default values). ※SS : solar simulator
AM-1312
AM-1456
AM-1411
AM-1437
AM-1407
AM-1417
AM-1424
AM-1454
AM-1513
AM-1522
AM-1606
AM-1713
AM-1719
AM-1819
AM-1820
AM-1805
AM-1801
AM-1815
AM-1816
Products name
1.3
0.7
1.0
1.0
1.3
1.3
2.0
3.0
2.0
6.3
0.4
2.7
3.1
2.2
3.1
3.0
3.6
7.8
15.6
Weight (g)
1.9V
2.5V
2.5V
2.5V
2.5V
2.5V
2.5V
2.5V
3.1V
3.1V
3.7V
4.4V
4.4V
5.0V
5.0V
5.0V
5.0V
5.0V
5.0V
Voc
17.6μA
6 . 4μA
9 . 5μA
9 . 2μA
13.1μA
14.1μA
22.0μA
35.2μA
16.8μA
62.2μA
3 . 6μA
16.7μA
18.6μA
8 . 1μA
14.8μA
16.8μA
20.2μA
48.2μA
96.7μA
Isc
1.2V-16.2μA
1.5V-5.9μA
1.5V-8.6μA
1.5V-8.5μA
1.5V-12.2μA
1.5V-13.3μA
1.5V-20.6μA
1.5V-33.3μA
1.8V-15.9μA
2.1V-58.7μA
2.6V-3.4μA
3.0V-15.2μA
3.0V-17.3μA
3.0V-6.9μA
3.0V-13.8μA
3.0V-15.7μA
3.0V-18.9μA
3.0V-45.7μA
3.0V-92.2μA
Vope-Iope
External dimensions (mm)
38.0×12.5×1.1
25.0×10.0×1.1
29.6×11.8×1.1
29.6×11.8×1.1
38.0×12.5×1.1
35.0×13.9×1.1
53.0×13.8×1.1
41.6×26.3×1.1
55.0×13.5×1.1
55.0×40.5×1.1
15.0×15.0×0.7
96.6×10.0×1.1
41.6×26.3×1.1
31.0×24.0×1.1
43.0×26.0×1.1
55.0×20.0×1.1
53.0×25.0×1.1
58.1×48.6×1.1
96.7×56.7×1.1
Width x length x thickness
NEW
How to look at the Products name
A M ̶14 07C ̶ O O
AM Glass type
AL Stainless steel type
AT Film type
:Indoor products
:Watches
5、7、8 :Outdoor products
30 :Photosensors
Kind of the substrate
Number of cells
(Series connection)
1:  1 cell
2:  2 cell
3:  3 cell
   ・
   ・
A:   1 cell
B:   1 cell
Development
Number
Customer number
Terminal structures
01
02
 ・
 ・
99
A0
A1
 ・
 ・
We give the customer number
at the time of a mass production
CACAR :With lead wire
、C 、C S :Without lead wire
9
10
Terminal Structures
Circuit Reference Examples
Specified usage examples
Load
Solar cell
①Direct connection type
Application
Toys, DC motors, loT,etc.
Voltage control
circuit
Back-flow-preventing diode
Back-flow
preventing
diode
primary
battery
Solar cell
Load
②Combination-type primary battery
Application
Clocks (both wall and table clocks),
thermometer/hygrometers,
remote controls, calculators, loT,etc.
Charging control
circuit
Back-flow-preventing diode
Rechargeable
battery
,
Capacitors,
etc
Solar cell
Load
③Rechargeable battery
Application
Watches (wristwatches),
clocks (both wall and table clocks),
garden lights, PC peripheral devices,
mobile chargers, battery chargers,
short-range communication terminals, car accessories,
LED lighting devices, flickering devices, traffic buttons, loT
Inquiry Sheet
By providing the following information, we can respond to your inquiries
more smoothly. Please contact us at the information found on the back cover.
In the case of general purpose products
Application 
Products name
Usage environment
(indoors or outdoors)
Types of rechargeable battery
Terminal connection method
Experience of using solar cell
(Yes or No)
Other requests
In the case of customized products
Application
Usage environment
(indoors or outdoors)
External dimensions
(installation space)
Required voltage
Required current
Types of rechargeable battery
Terminal connection method
Experience of using solar cell
(Yes or No)
Other requests
※How connectors are attached can be adjusted to meet customer requirements.
(      
Please provide
the following information
(     
Please provide
the following information
※A Schottky
Barrier Diode is
recommended
because its
voltage drop is
smaller.
※A Schottky
Barrier Diode is
recommended
because its
voltage drop is
smaller.
B type C type CS type CA type
Indoors
A C type terminal with a
lead wire
A temporary solder is
attached to a C type device.
Lead wire can be attached
using a regular solder.
Cannot be soldered.
A heat seal may be used.
Mainly for indoor products
●Photosensors
●Mainly photosensors
Primarily for indoor products
●Outdoor products
●Photosensors
●Mainly for watches
Conductive
paste
Solar
Conductive
paste Temporary
solder
Lead wire
C type
outdoors
Lead wire can be attached
using a regular solder.
Primarily for indoor products
●Outdoor products
●Photosensors
Conductive
paste
CAR type, A type
Pins are protected with a resin
coating after lead is attached.
Primarily for indoor products
※CAR type (glass)
※A type (film)
Resin
coating
Usage environmen (indoors or outdoors) External dimensi (installation spate) Experien(e of using solar cell (Ves at No) Amorfon
9
10
Terminal Structures
Circuit Reference Examples
Specified usage examples
Load
Solar cell
Direct connection type
Application
Toys, DC motors, loT,etc.
Voltage control
circuit
Back-ow-preventing diode
Back-flow
preventing
diode
primary
battery
Solar cell
Load
Combination-type primary battery
Application
Clocks (both wall and table clocks),
thermometer/hygrometers,
remote controls, calculators, loT,etc.
Charging control
circuit
Back-ow-preventing diode
Rechargeable
battery
,
Capacitors,
etc
Solar cell
Load
Rechargeable battery
Application
Watches (wristwatches),
clocks (both wall and table clocks),
garden lights, PC peripheral devices,
mobile chargers, battery chargers,
short-range communication terminals, car accessories,
LED lighting devices, flickering devices, traffic buttons, loT
Inquiry Sheet
By providing the following information, we can respond to your inquiries
more smoothly. Please contact us at the information found on the back cover.
In the case of general purpose products
Application 
Products name
Usage environment
(indoors or outdoors)
Types of rechargeable battery
Terminal connection method
Experience of using solar cell
(Yes or No)
Other requests
In the case of customized products
Application
Usage environment
(indoors or outdoors)
External dimensions
(installation space)
Required voltage
Required current
Types of rechargeable battery
Terminal connection method
Experience of using solar cell
(Yes or No)
Other requests
※How connectors are attached can be adjusted to meet customer requirements.
(       )
Please provide
the following information
(      )
Please provide
the following information
※A Schottky
Barrier Diode is
recommended
because its
voltage drop is
smaller.
※A Schottky
Barrier Diode is
recommended
because its
voltage drop is
smaller.
B type C type CS type CA type
Indoors
A C type terminal with a
lead wire
A temporary solder is
attached to a C type device.
Lead wire can be attached
using a regular solder.
Cannot be soldered.
A heat seal may be used.
Mainly for indoor products
●Photosensors
●Mainly photosensors
Primarily for indoor products
●Outdoor products
●Photosensors
●Mainly for watches
Conductive
paste
Solar
Conductive
paste Temporary
solder
Lead wire
C type
outdoors
Lead wire can be attached
using a regular solder.
Primarily for indoor products
●Outdoor products
●Photosensors
Conductive
paste
CAR type, A type
Pins are protected with a resin
coating after lead is attached.
Primarily for indoor products
※CAR type (glass)
※A type (film)
Resin
coating
I +81 -3-4574-6345 Panasonic Solar Amorton Co., Ltd.
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Panasonic Amorton
Visit our website for product information
Visit our website for more information.
The Panasonic Group’s goal is producing eco-friendly products.
Product
inquiries
Customer Consultation Service
■Handling Amorphous Silicon Solar Cells and Amorphous Photosensors
★Use care around broken glass to avoid injury.
★Avoid touching solar cells during the daytime because they get very hot when the sunlight is strong.
★If the light-receiving side is stained/smudged, the electrical output will decline due to a decrease in the incident light.
Carefully clean the sides to remove stains.
★Pressing or scratching the energy-generating area with a hard object may decrease the output.
★These products are not water-resistant, or water-repellent, or shock-resistant. When using them outdoors, avoid getting
them wet by placing them in an airtight container, when appropriate.
★When using your product, consider a fail-safe or redundant design.
★Consider a proper method for static electricity removal. Static electricity may damage the power generation element and
decrease the output.
★Do not apply an indoor Amorton to a product that requires an outdoor environment. Proportional output
levels of light may not be obtained under high illumination.
★Do not apply an outdoor Amorton to a product that requires an indoor environment. The necessary output
may not be obtained under low light levels.
★Please test your products for anomalies and circumstances that cannot be predicted by evaluating a single Amorton.
■Storage
★Store in a cool (under a specific temperature range of -20℃~70℃), low-humidity environment free of corrosive
gas to avoid such problems as electrode corrosion to the solar cells.
Any and all of our products described or contained herein are, with regard to standard application, intended for use as general electronics equipment,
including home appliances, AV equipment, communication devices, office equipment, industrial equipment, etc.
The products mentioned herein are not intended for any special applications (such as life-sustaining medical equipment, aerospace instruments, nucle-
ar control devices, appliances for burning, transportation machines, traffic signal systems, safety equipment, etc.) that require extremely high levels of
reliability and can directly threaten human lives during product failure or malfunction that might threaten lives; no guarantees thereof shall be granted.
If you intend to use our products for applications outside the standard applications and/or outside the scope of the intended standard applications,
please consult us prior to such use. Without such consultation or inquiry, the customer shall be held solely responsible.
Specifications of any or all of our products described or contained herein stipulate the performance, characteristics, and functions of the described
products in their independent state and are not guarantees of performance, characteristics, and functions as mounted in the customer’s products or
equipment. To verify the symptoms and states that cannot be evaluated in independent devices, the customer should always evaluate and test devices
mounted in its products or equipment.
Our company assumes no responsibility for equipment failures that result from using products at values that exceed (even momentarily) the rated
values (such as maximum ratings, operating condition ranges, or other parameters) listed in the products specifications of any and all of our products
described or contained herein.
●Our company supplies high-quality high-reliability products; however, any and all semiconductor products may fail or malfunction. Such probabilistic
failures or malfunctions might cause accidents or incidents that could endanger lives, problems that might produce smoke or fire, or accidents that
might damage property.
 At the time of the equipment design, adopt safety measures to avoid such accidents or events. Such measurements include but are not limited to
protective circuits and error prevention circuits for safe, redundant, and structural designs.
In the event that any or all our products described or contained herein correspond to restricted freight regulations stipulated in the Foreign Exchange
and Foreign Trade Act, such products may require an export license from the concerned authorities in accordance with the above law.
No part of this publication may be reproduced or transmitted in any form or any means, electronic or mechanical, including photocopying and record-
ing, or any information storage or retrieval system or otherwise, without the prior written consent of our company.
Any and all information described or contained herein is subject to change without notice due to product/technology improvements, etc. When using
equipment, refer to the Delivery Specifications for the product that you intend to use.
Information (including circuit diagrams and circuit parameters) herein are only examples; the volume of production is not guaranteed.
Upon using the technical information or products described herein, neither warranty nor license shall be granted with regard to the intellectual property
rights or any other rights of our company or any third party. Our company shall not be liable for any claim or suits with regard to a third party’s intellec-
tual property rights which resulted from the use of the above technical information and products.
Handling
Precautions
Points to
Consider in
Adopting Our
Products
Telephone reception: 9:00 a.m. to 5:00 p.m., Monday through Friday
Hours are subject to change, especially during the following long vacation
periods: Golden Week, summer vacation, and the end-of-the-year. Your
understanding is greatly appreciated.
Energy
conser-
vation
By pursuing energy conservation, we provide
our customers with products that support the
reduction of CO₂ emissions.
Resource
conserva-
tion
To promote resource recycling, we reduce the
consumption of new resources. Products are
made using recycled resources collected from
used products.
Chemical
substanc-
es
Panasonic products conform to the global standards
of the RoHS Directives, which regulate the use of
specific environmental load substances.
*Lead, cadmium, mercury, hexavalent chromium, and specific
bromine-based flame retardants
Tokyo Sky Tree, East Tower 20F
1-1-2, Oshiage, Sumida Ward, Tokyo
Zip code: 131-0045
No part of this publication may be photocopied without consent.
Panasonic Solar Amorton Co., Ltd.
Sales Planning Division, Project Planning Department
The information in this catalog is
April 2019.
Amorphous Silicon Solar Cells
Amorphous Photosensors
Outdoor lighting levels Indoor lighting levels
Watches
http://panasonic.com/jp/sustainability
Business Planning Department
2020