This short communication presents a method to measure the integral temperature of organic light-emitting diodes (OLEDs). Based on electrochemical impedance measurements at OLEDs, a non-zero intercept frequency (NZIF) can be determined which is related to the OLED temperature. The NZIF is defined as the frequency at which the imaginary part of the impedance is equal to a predefined (non-zero) constant. The advantage of using an impedance-based temperature indication method through an NZIF is that no hardware temperature sensors are required and that temperature measurements can be performed relatively fast. An experimental analysis reveals that the NZIF is clearly temperature dependent and, moreover, also DC current dependent. Since the NZIF...
Voltage-temperature coefficient(S) is the key parameter for measuring the light-emitting diode(LED)&...
A study on power light-emitting diode (LED) junction temperature sensing based on the measurements o...
This paper presents a number of novel methods to measure the junction temperature and to estimate th...
This short communication presents a method to measure the integral temperature of organic light-emit...
This paper describes a novel optical measurement technique for the in situ determination of the spat...
A new impedance-based approach is introduced in which the integral battery temperature is related to...
A new impedance-based approach is introduced in which the integral battery temperature is related to...
Given the temperature dependence of various aspects of light-emitting diode (LED) performance, LED t...
Deep ultraviolet (DUV) light emitting diodes (LEDs) based on group III-Nitrides have numerou...
A detailed study about the direct measurement of junction temperature T_{J} of off-the-shelf power l...
Current work presents a quantitative analysis of Joule heating by temperature measurements using inf...
Optical and electrical characteristics of power light-emitting diodes (LEDs) are strongly dependent ...
[Abstract] The influence of device temperature on luminance decay in organic light-emitting diode (O...
Voltage-temperature coefficient(S) is the key parameter for measuring the light-emitting diode(LED)&...
A study on power light-emitting diode (LED) junction temperature sensing based on the measurements o...
This paper presents a number of novel methods to measure the junction temperature and to estimate th...
This short communication presents a method to measure the integral temperature of organic light-emit...
This paper describes a novel optical measurement technique for the in situ determination of the spat...
A new impedance-based approach is introduced in which the integral battery temperature is related to...
A new impedance-based approach is introduced in which the integral battery temperature is related to...
Given the temperature dependence of various aspects of light-emitting diode (LED) performance, LED t...
Deep ultraviolet (DUV) light emitting diodes (LEDs) based on group III-Nitrides have numerou...
A detailed study about the direct measurement of junction temperature T_{J} of off-the-shelf power l...
Current work presents a quantitative analysis of Joule heating by temperature measurements using inf...
Optical and electrical characteristics of power light-emitting diodes (LEDs) are strongly dependent ...
[Abstract] The influence of device temperature on luminance decay in organic light-emitting diode (O...
Voltage-temperature coefficient(S) is the key parameter for measuring the light-emitting diode(LED)&...
A study on power light-emitting diode (LED) junction temperature sensing based on the measurements o...
This paper presents a number of novel methods to measure the junction temperature and to estimate th...