Wearable Device

Wearable Device

wearableWearable devices have become the hot commodity in today’s tech landscape changing the way consumers receive and send data; opening the door for exponential market growth. A wearable device is made up of highly-sophisticated electronic components and provides many functions and features such as communication, camera, display and sensor. These components must be small and able to operate on low power. Panasonic various solutions for the wearable market meet the ideal specification for these devices – unique low power consumption, miniaturization and multi-packaging technologies.

Wearable Device

NFC Tag LSIs

Panasonic NFC Tag LSIs are contactless IC Tags supporting NFC technology, where NFC devices can communicate with the Tag to read and write data.

More information...

Series

Wearable Device

Light Touch / Tactile Switches

Versatile, High-Quality Tactile Switches.

More information...

Downloads

Application Notes
Letter for the Certificate of Compliance to EU RoHS Directive
Light Touch Switches Common Specifications
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Reference specification
Report of Confirmation of EU REACH SVHC
Selector Chart

Wearable Device

8-bit Microcomputers MN101E Series

MN101E Series is an 8-bit general-use flash MCU with a Panasonic original 8-bit "AM13E“ CPU.

This Series can contribute to create various systems because of its’ simple and compact design, various peripheral functions such as an LCD driver, wide range of pin count and memory lineup.

 Features / Benefits

More information...

Wearable Device

Connectors

Panasonic offers high-quality, durable Connectors for every project.

More information...

Wearable Device

Connectors

Panasonic offers high-quality, durable Connectors for every project.

More information...

Wearable Device

Power Inductors (Multilayer Type)

Panasonic multi-layer power inductors feature a small 0805 case size and excellent DC current bias characteristics, driven by Panasonic’s proprietary laminating process technology.

More information...

Downloads

Wearable Device

Connectors

Panasonic offers high-quality, durable Connectors for every project.

More information...

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Thermal Management Products

Panasonic's Thermal Management products include a wide range of options such as the staple Pyrolytic Graphite Sheets (PGS) thermal interface material and the more recently introduced solutions such as Semi-Sealing Material (SSM), Graphite-PAD, NASBIS Insulating Sheets, and Soft PGS.  

More information...

Downloads

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Polymer Capacitors

Small in Size, Robust in Design

Engineered to handle a broad range of technologies, Panasonic’s Polymer Capacitors can be designed into the most demanding applications featuring:

More information...

Wearable Device

More information...

Wearable Device

Common Mode Noise Filters

Common Mode Noise Filters are devices used to filter out undesirable frequencies in a signal. Common Mode Noise Filters are used to insure the integrity of the USB or HDMI signal to meet the standard required for those applications.

Panasonic offers Common Mode Noise Filters with benefits such as: 

More information...

Downloads

Wearable Device

Multilayer SMD Varistors

Multilayer SMD Varistors are monolithic, ceramic devices.  Multilayer SMD Varistors protect against damage from electrostatic discharge (ESD).

Panasonic offers multilayer versions of SMD Varistors. They are available in Surface Mount packages and have a wide range of Varistor voltages and peak current/energy capabilities.

 

 

More information...

Downloads

Wearable Device

Multilayer SMD Varistors

Multilayer SMD Varistors are monolithic, ceramic devices.  Multilayer SMD Varistors protect against damage from electrostatic discharge (ESD).

Panasonic offers multilayer versions of SMD Varistors. They are available in Surface Mount packages and have a wide range of Varistor voltages and peak current/energy capabilities.

 

 

More information...

Downloads

Wearable Device

Common Mode Noise Filters

Common Mode Noise Filters are devices used to filter out undesirable frequencies in a signal. Common Mode Noise Filters are used to insure the integrity of the USB or HDMI signal to meet the standard required for those applications.

Panasonic offers Common Mode Noise Filters with benefits such as: 

More information...

Downloads

Wearable Device

Multilayer SMD Varistors

Multilayer SMD Varistors are monolithic, ceramic devices.  Multilayer SMD Varistors protect against damage from electrostatic discharge (ESD).

Panasonic offers multilayer versions of SMD Varistors. They are available in Surface Mount packages and have a wide range of Varistor voltages and peak current/energy capabilities.

 

 

More information...

Downloads

Wearable Device

Connectors

Panasonic offers high-quality, durable Connectors for every project.

More information...

Wearable Device

Common Mode Noise Filters

Common Mode Noise Filters are devices used to filter out undesirable frequencies in a signal. Common Mode Noise Filters are used to insure the integrity of the USB or HDMI signal to meet the standard required for those applications.

Panasonic offers Common Mode Noise Filters with benefits such as: 

More information...

Downloads

Wearable Device

Multilayer SMD Varistors

Multilayer SMD Varistors are monolithic, ceramic devices.  Multilayer SMD Varistors protect against damage from electrostatic discharge (ESD).

Panasonic offers multilayer versions of SMD Varistors. They are available in Surface Mount packages and have a wide range of Varistor voltages and peak current/energy capabilities.

 

 

More information...

Downloads

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Thermal Management Products

Panasonic's Thermal Management products include a wide range of options such as the staple Pyrolytic Graphite Sheets (PGS) thermal interface material and the more recently introduced solutions such as Semi-Sealing Material (SSM), Graphite-PAD, NASBIS Insulating Sheets, and Soft PGS.  

More information...

Downloads

Wearable Device

8-bit Microcomputers MN101E Series

MN101E Series is an 8-bit general-use flash MCU with a Panasonic original 8-bit "AM13E“ CPU.

This Series can contribute to create various systems because of its’ simple and compact design, various peripheral functions such as an LCD driver, wide range of pin count and memory lineup.

 Features / Benefits

More information...

Wearable Device

Connectors

Panasonic offers high-quality, durable Connectors for every project.

More information...

Wearable Device

ESD Suppressor

ESD Suppressors are devices that excel at suppressing electrostatic noise within a system. ESD Suppressors are used to protect electronic devices from high static surges using their ability to rapidly decrease resistance value to encourage the flow of electricity to go to ground.

More information...

Downloads

Wearable Device

Connectors

Panasonic offers high-quality, durable Connectors for every project.

More information...

Wearable Device

ESD Suppressor

ESD Suppressors are devices that excel at suppressing electrostatic noise within a system. ESD Suppressors are used to protect electronic devices from high static surges using their ability to rapidly decrease resistance value to encourage the flow of electricity to go to ground.

More information...

Downloads

Wearable Device

FPC/FFC Connectors

Panasonic's FPC/FFC Connectors

Panasonic offers Flexible Printed Circuit (FPC) Connectors and Flat Flex Cable (FFC) Connectors. These Connectors can be used in a wide range of digital devices. The terminal pitch of these Connectors ranges between 0.2mm to 0.5mm, with a mated height from 0.9mm to 2.0mm. 

More information...

Wearable Device

Multilayer SMD Varistors

Multilayer SMD Varistors are monolithic, ceramic devices.  Multilayer SMD Varistors protect against damage from electrostatic discharge (ESD).

Panasonic offers multilayer versions of SMD Varistors. They are available in Surface Mount packages and have a wide range of Varistor voltages and peak current/energy capabilities.

 

 

More information...

Downloads

Wearable Device

Thermal Management Products

Panasonic's Thermal Management products include a wide range of options such as the staple Pyrolytic Graphite Sheets (PGS) thermal interface material and the more recently introduced solutions such as Semi-Sealing Material (SSM), Graphite-PAD, NASBIS Insulating Sheets, and Soft PGS.  

More information...

Downloads

Wearable Device

MOSFETs

Panasonic provides a diverse lineup including new ultra-small PMCP (Power Mount CSP) with high heat dissipation. MOSFETs for Load Switch features industry leading Low RDS(on).

More information...

Wearable Device

Schottky Barrier Diodes

Panasonic's Schottky Barrier Diodes (SBD) have the Junction Barrier Schottky (JBS) structure using the 150-nm fine process technology allowing for use in small, high efficiency applications.

More information...

Wearable Device

Chip Resistors

Panasonic offers a wide range of Chip Resistors including conventional Thick Film Chip Resistors, Specialized Resistors such as Thin Film, Current Sense, Anti-Sulfur, Anti-Surge and Metal Film Chip Resistors.

More information...

Downloads

Wearable Device

Power Inductors (Multilayer Type)

Panasonic multi-layer power inductors feature a small 0805 case size and excellent DC current bias characteristics, driven by Panasonic’s proprietary laminating process technology.

More information...

Downloads

Wearable Device

Power Inductors (Multilayer Type)

Panasonic multi-layer power inductors feature a small 0805 case size and excellent DC current bias characteristics, driven by Panasonic’s proprietary laminating process technology.

More information...

Downloads

Wearable Device

Polymer Capacitors

Small in Size, Robust in Design

Engineered to handle a broad range of technologies, Panasonic’s Polymer Capacitors can be designed into the most demanding applications featuring:

More information...

Wearable Device

Micro Chip Fuse

Micro Chip Fuses are small size, fast acting type Chip Fuses for secondary Circuit Protection. These Fuses are used to prevent smoke emissions, fire and other problems caused by over current.

Panasonic Micro Chip Fuses feature a narrow distribution of fusing time. This allows for higher performance to provide a fast and reliable response during a critical situation. 

More information...

Downloads

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Chip Resistors

Panasonic offers a wide range of Chip Resistors including conventional Thick Film Chip Resistors, Specialized Resistors such as Thin Film, Current Sense, Anti-Sulfur, Anti-Surge and Metal Film Chip Resistors.

More information...

Downloads

Wearable Device

Lithium Batteries

Designed for high capacity and high temperature.

Panasonic Coin-Type Lithium Primary Batteries are available in an extensive array of high capacity products (1000 mAh) as well as in high temperature resistance series (125oC). They are suitable for a variety of uses, such as main power supplies for small equipment to large memory backup.

More information...

Wearable Device

Chip Resistors

Panasonic offers a wide range of Chip Resistors including conventional Thick Film Chip Resistors, Specialized Resistors such as Thin Film, Current Sense, Anti-Sulfur, Anti-Surge and Metal Film Chip Resistors.

More information...

Downloads

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Industrial SD Cards

Pursuing High Reliability

More information...

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Chip Resistors

Panasonic offers a wide range of Chip Resistors including conventional Thick Film Chip Resistors, Specialized Resistors such as Thin Film, Current Sense, Anti-Sulfur, Anti-Surge and Metal Film Chip Resistors.

More information...

Downloads

Wearable Device

Power Inductors (Multilayer Type)

Panasonic multi-layer power inductors feature a small 0805 case size and excellent DC current bias characteristics, driven by Panasonic’s proprietary laminating process technology.

More information...

Downloads

Wearable Device

Low Noise Amplifiers (LNA)

Panasonic provides a wide variety of Low Noise Amplifiers (LNA) for DTV, GPS, and WLAN/WiMax. LNAs for DTV can be used for ISDB-T, ISDB-Tmm, DVB-H and more. LNAs for WLAN/WiMAX can be used in 2.4GHz, 3.5GHz and 5GHz bands. 0.18µm SiGeC BiCMOS process provides low NF and low distortion characteristics.

More information...

Wearable Device

ESD Suppressor

ESD Suppressors are devices that excel at suppressing electrostatic noise within a system. ESD Suppressors are used to protect electronic devices from high static surges using their ability to rapidly decrease resistance value to encourage the flow of electricity to go to ground.

More information...

Downloads

Wearable Device

Micro Chip Fuse

Micro Chip Fuses are small size, fast acting type Chip Fuses for secondary Circuit Protection. These Fuses are used to prevent smoke emissions, fire and other problems caused by over current.

Panasonic Micro Chip Fuses feature a narrow distribution of fusing time. This allows for higher performance to provide a fast and reliable response during a critical situation. 

More information...

Downloads

Wearable Device

NTC SMD Thermistors

NTC (Negative Temperature Coefficient) SMD Thermistors are multilayer devices that inversely change resistance value according to temperature. NTC SMD Thermistors detect, measure or compensate for temperature. For example, these Thermistors can be used to monitor battery charging to sense when the battery is fully charged.

More information...

Downloads

Wearable Device

Chip Resistors

Panasonic offers a wide range of Chip Resistors including conventional Thick Film Chip Resistors, Specialized Resistors such as Thin Film, Current Sense, Anti-Sulfur, Anti-Surge and Metal Film Chip Resistors.

More information...

Downloads

Wearable Device

Power Inductors (Multilayer Type)

Panasonic multi-layer power inductors feature a small 0805 case size and excellent DC current bias characteristics, driven by Panasonic’s proprietary laminating process technology.

More information...

Downloads

Wearable Device

Low Noise Amplifiers (LNA)

Panasonic provides a wide variety of Low Noise Amplifiers (LNA) for DTV, GPS, and WLAN/WiMax. LNAs for DTV can be used for ISDB-T, ISDB-Tmm, DVB-H and more. LNAs for WLAN/WiMAX can be used in 2.4GHz, 3.5GHz and 5GHz bands. 0.18µm SiGeC BiCMOS process provides low NF and low distortion characteristics.

More information...

Wearable Device

ESD Suppressor

ESD Suppressors are devices that excel at suppressing electrostatic noise within a system. ESD Suppressors are used to protect electronic devices from high static surges using their ability to rapidly decrease resistance value to encourage the flow of electricity to go to ground.

More information...

Downloads

Wearable Device

Micro Chip Fuse

Micro Chip Fuses are small size, fast acting type Chip Fuses for secondary Circuit Protection. These Fuses are used to prevent smoke emissions, fire and other problems caused by over current.

Panasonic Micro Chip Fuses feature a narrow distribution of fusing time. This allows for higher performance to provide a fast and reliable response during a critical situation. 

More information...

Downloads