Electricity: measuring and testing – Fault detecting in electric circuits and of electric components – Of individual circuit component or element
Reexamination Certificate
2002-05-30
2003-07-29
Cuneo, Kamand (Department: 2829)
Electricity: measuring and testing
Fault detecting in electric circuits and of electric components
Of individual circuit component or element
C324S1540PB
Reexamination Certificate
active
06600331
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a method and device for measuring a temperature when testing an electronic component.
The component parameters must be determined when testing an electronic component. However, the majority of the component parameters are temperature-dependent. Particular significance is given to the temperature that prevails at the location of the electronic component that is relevant for the respective component parameter. This temperature is termed junction temperature. In the case of integrated modules, this is a temperature in a specific region of the substrate in which the electronic circuits relevant for determining the component parameters are situated.
The junction temperature cannot be measured straightaway, because it is difficult to mount a temperature sensor at the relevant point of the chip, particularly after the chip has been inserted in a housing, and in addition, the component parameters are frequently determined from a plurality of regions on the chip. It is impracticable as a rule to mount sensors on all of these regions. The respective component parameter is a function of a chip temperature at the regions on the chip that are decisive for the respective component parameter.
In measurement methods known to date, the chip is exposed to an ambient temperature and it is assumed using an approximation that the temperature at the relevant regions on the chip corresponds to the ambient temperature. However, during operation of the integrated circuit heat is generated on the chip. The result is to increase the temperature in the active regions in comparison with the ambient temperature. Particularly in the case of consecutive measurements, the integrated circuit remains essentially continuously in use, and so the temperature on the chip rises in a non-negligible way in comparison with the ambient temperature. A further disadvantage is that the degree of heating of the chip cannot be determined.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a device and a method for measuring the junction temperature in an electronic component which overcome the above-mentioned disadvantages of the prior art devices and methods of this general type.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method for measuring a temperature in an integrated semiconductor component, that includes steps of: obtaining an internal signal by applying a periodic test signal to a signal path that is internally configured in the semiconductor component; ensuring that there is a relationship, selected from the group consisting of a frequency relationship and a phase relationship, between the periodic test signal and a periodic external signal; measuring a phase shift between the internal signal and the external signal; and using the phase shift to determine an average temperature in a component region determined by the signal path.
In accordance with the method for measuring a temperature in an electronic component, a periodic test signal is led via a signal path inside the component in order to obtain an internal signal. There is a frequency and/or phase relationship between the periodic test signal and a periodic external signal. A phase shift is measured between an internal signal and an external signal. The temperature averaged over the component region selected by the signal path is determined from the phase shift. The temperature is preferably a junction temperature of the relevant component region.
The invention is based on the finding that because of switching speeds of the gates, the signal propagation times in the component interior are a function of the temperature prevailing there. The invention uses this dependence in order to measure the junction temperature when testing electronic components. This is advantageous, in particular, because of the fact that the junction temperature is difficult to measure from the outside and differs from the ambient temperature by a not exactly quantifiable value because of heat that is developed inside the electronic component.
The method now advantageously renders it possible to determine a mean junction temperature of the regions through which an internal signal is led. The internal signal is advantageously led through the component via a signal path such that it substantially traverses the region or regions relevant for determining the component parameters. It is frequently sensible to use a functional signal path, which is already present in any case in the chip, as the signal path so that additional chip area is not required for an additional signal path.
An average value is determined from the phase shift between the external signal and the internal signal, in order to average therefrom fluctuations in the phase shift because of jitter effects or other ones. An averaged value for the junction temperature can be determined in this way over the selected chip region.
With the foregoing and other objects in view there is provided, in accordance with the invention, a combination including: an integrated semiconductor component having an internally configured signal path obtaining an internal periodic signal from a periodic test signal applied thereto; and a device for measuring a temperature in the semiconductor component. The device includes a phase-sensitive element having a first input receiving an external periodic signal and a second input receiving the internal periodic signal from the semiconductor component. The phase-sensitive element has an output providing a variable corresponding to a time-averaged phase shift between the external periodic signal and the internal periodic signal from the semiconductor component. The time-averaged phase shift corresponds to an average temperature of a component region determined by the signal path in the electronic component. A frequency relationship or a phase relationship exists between the periodic test signal and the external periodic signal.
In accordance with an added mode of the invention, the phase-sensitive element is preferably for measuring a junction temperature in an electronic component.
The first input of the phase-sensitive element is connected to an external periodic signal, and the second input is connected to an internal periodic signal. The internal signal is in this case a periodic test signal led via a signal path inside the component. There is a frequency and/or phase relationship between the periodic test signal and a periodic external signal. The phase-sensitive element outputs, at an output, a variable that corresponds to the time-averaged phase shift between an external signal and a signal inside the component. The time-averaged phase shift corresponds to a temperature that is averaged over a component region selected by the signal path in the electronic component. The time-averaged phase shift corresponds to a junction temperature, averaged over the signal path, in the electronic component.
The device has the advantage that it renders it possible to measure the junction temperature in an electronic component in a simple way. Whereas previously, the junction temperature has been derived from the ambient temperature to which the electronic component is exposed, the device enables the junction temperature to be determined essentially exactly at the instant of a measurement of a component temperature. Particularly in the case when measuring a plurality of parameters of an electronic component, the electronic component is connected to the supply voltage for a lengthy period. The result is that the electronic component is heated entirely or partially in comparison with the ambient temperature. That is to say, it is now possible when measuring a plurality of electronic component parameters within a short time after applying a supply voltage to the electronic component, to make the assumption that the junction temperature corresponds to the ambient temperature. In the case of directly consecutive measurements of component parameters, the compone
Kilian Volker
Roth Richard
Cuneo Kamand
Greenberg Laurence A.
Infineon - Technologies AG
Locher Ralph E.
Nguyen Tung X.
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