Various implementations are directed to a method for detecting, by a device, an increase in temperature at certain parts of an electrical system, and taking appropriate responsive action. The method may include measuring temperatures at certain locations within the system and estimating temperatures at other locations based on the measurements. Some embodiments include an integrated cable combining electrical conduction and heat-detection capabilities, or an integrated cable or connector combining electrical conduction with a thermal fuse.

Various implementations are directed to a method for detecting, by a device, an increase in temperature at certain parts of an electrical system, and taking appropriate responsive action. The method may include measuring temperatures at certain locations within the system and estimating temperatures at other locations based on the measurements. Some embodiments include an integrated cable combining electrical conduction and heat-detection capabilities, or an integrated cable or connector combining electrical conduction with a thermal fuse.

Various implementations described herein are directed to a method for detecting, by a device, an increase in temperature at certain parts of an electrical system, and taking appropriate responsive action. The method may include measuring temperatures at certain locations within the system and estimating temperatures at other locations based on the measurements. Some embodiments disclosed herein include an integrated cable combining electrical conduction and heat-detection capabilities, or an integrated cable or connector combining electrical conduction with a thermal fuse.

Various implementations described herein are directed to a method for detecting, by a device, an increase in temperature at certain parts of an electrical system, and taking appropriate responsive action. The method may include measuring temperatures at certain locations within the system and estimating temperatures at other locations based on the measurements. Some embodiments disclosed herein include an integrated cable combining electrical conduction and heat-detection capabilities, or an integrated cable or connector combining electrical conduction with a thermal fuse.

Aspects of this disclosure relate to generating measurements based on positions of particles within one or more compartments. At least some of the particles can move in response to an external stimulus. A comparative measurement can be provided based on comparing the measurements. The measurements can be associated with two or more types of particles and/or two or more compartments.

Aspects of this disclosure relate to generating measurements based on positions of particles within one or more compartments. At least some of the particles can move in response to an external stimulus. A comparative measurement can be provided based on comparing the measurements. The measurements can be associated with two or more types of particles and/or two or more compartments.

A stimulus indicating device is disclosed. The stimulus indicating device includes a stimulus sensitive amphiphilic gel; and an assembly having a first end and a second end. The assembly may include a top layer, a middle layer comprised of a porous polymer membrane, and a bottom layer. The top layer and the bottom layer may be sealed together on opposing sides of the assembly, and the top layer and the bottom layer may be sealed at the width of the second end of the assembly.

A stimulus indicating device is disclosed. The stimulus indicating device includes a stimulus sensitive amphiphilic gel; and an assembly having a first end and a second end. The assembly may include a top layer, a middle layer comprised of a porous polymer membrane, and a bottom layer. The top layer and the bottom layer may be sealed together on opposing sides of the assembly, and the top layer and the bottom layer may be sealed at the width of the second end of the assembly.

A temperature indicator includes a transparent substrate with a first code and a second code disposed on a first side of the transparent substrate. The first code comprises a first color and the second code comprises a second color different than the first color. An absorbent medium is disposed on a second side of the transparent substrate opposite the first side and comprises a third color that contrasts with only the second color of the first and second colors. A substance is disposed between the absorbent medium and the transparent substrate. The substance comprises a fourth color that contrasts with only the first color of the first and second colors and is meltable and absorbed by the absorbent medium in response to a temperature exceeding a temperature threshold.

A temperature indicator includes a transparent substrate with a first code and a second code disposed on a first side of the transparent substrate. The first code comprises a first color and the second code comprises a second color different than the first color. An absorbent medium is disposed on a second side of the transparent substrate opposite the first side and comprises a third color that contrasts with only the second color of the first and second colors. A substance is disposed between the absorbent medium and the transparent substrate. The substance comprises a fourth color that contrasts with only the first color of the first and second colors and is meltable and absorbed by the absorbent medium in response to a temperature exceeding a temperature threshold.