DE3903091A1 - IR image sensor with mosaic detector - has electronics with modular and programmable stages for certain image processing functions - Google Patents

Abstract

The circuit has the mosaic detector and an electronic system for signal processing. The electronic system consists of modular and programmable stages for certain image processing function for adjustment of signal parameters required for specific application. The electronic system is pref. designed for specific application tasks by exchange, addition or removal of certain stages. The adapting of the electronic system to a band width, signal level, etc. of the sensor signal may be carried out by corresp. programming of the stages, while the electronic system can be applied to different sensor heads. USE/ADVANTAGE - Applicability to any arbitrary detector types e.g. for automatic target acquisition and tracking system. (5pp Dwg.No.2/2)

Description

The invention relates to a circuit arrangement for Infrared image sensors, with a mosaic detector and a to Signal conditioning downstream electronics.

Modern infrared image sensors use as imagers so-called. Mosaic detectors, which in contrast to conventional devices only from relatively few parts like Detector with Dewar, Op tik, cooler and electronics. Relevant parameter for the performance of such a device is the execution of the detector, with respect to the material used, so like the bandwidth of the generated signals. That means that ever Upon request, a variety of different mosaic detectives exist or are to be developed and therefore it is possible that each of these detector types have different interfaces has to downstream device part. This results for each type of detector special, i. own camera designs, because of the number of pixels to be scanned, the Detector material and the structure and the readout structure of the Detector. This variety of requirements has typical detectors Drive and Ausleseelektroniken result, which to fulfill These requirements must be designed accordingly.

The invention is therefore based on the object, an electronics for infrared image sensors with mosaic detectors, wel Che is capable of using any type of detector to become. This object is achieved according to the invention characterized that the electronics of modular and programmable construction stages for certain image processing functions is to adjust use and / or application-specific signal parameters.

The inventive measure has due to the modular design the advantage of replacing, adding or removing construction  adapted for application-specific tasks or added to be cut. Thus, a detector-independent Elek which are built for virtually every type of detector can be used. Adjusting to the bandwidth, the signal Level etc. is usually done with the help of the software guided.

The invention will be apparent from the drawing he closer purifies. Show it:

Fig. 1 is a block diagram of a ver with an electronics ver infrared camera and

Fig. 2 is an overview of combinations of various electronic modules nik.

As the illustration of FIG. 1 shows an infrared camera image from a variety of alternatively selectable sensor heads 1 a , 1 b , ... 1 n consist whose respective central element is equipped with egg nem mosaic converter. The sensor heads 1, which can be selected according to application-specific aspects, can be, for example, 512 × 512 pixels, a material made of indium silicon, and have a hybrid structure or inter-line scanning. In addition, with a hybrid structure and 512 × 512 pixels, it is also possible to use platinum-silicon as the material for the mosaic converter. The pixels can also comprise 512 × 128 or 256 × 256 elements or any other combinations. Therefore, a wide variety of selectable sensor heads may result.

In the downstream electronics 2 Bildverarbei the functions are integrated, which are relevant for a variety of appli cations. The structure of this electronics is designed modular, so that a broad use of infrared image sensors for different areas is possible. In addition, the electronics are such that they not only signals of today's Mo saikdetektoren but also with 512 × 512 pixels and more, ie future detectors can handle. In coarse subdivision, the electronics from an interface stage 4 be available, which converts the signals of the sensor 1 used for a subsequent processing and evaluation stage 5 be . This processing and evaluation stage 5 controls either directly an image display device 3 or switches the data to a - interface 6 for controlling a multi-sensor - bus.

Depending on the application requirements, for example, the following Grup pations for infrared image sensors:

application function observation - preprocessing - automatic optimization of image quality - standard converter (CCIR, NTSC) - Option: automatic target acquisition and tracking Manually controlled loss devices - preprocessing - Fiber optic coupling - Optimization of image quality - standard converter - Interface Autonomous loss devices - preprocessing - automatic target acquisition - Position determination, tracking - Interface Real-time education - preprocessing - Optimization of image quality - automatic target acquisition, position determination, tracking - standard converter - Image data reduction (for interference-free data transmission links) - Interface

The function Interfacing is an application oriented in intelligent building unit, which on the one hand is a BUS Interface for the feedback of a picture observer on the Sensor allows or results of the sensor electronics, such. Destination coordinates, to the steering computer of the overall system übermit telt. On the other hand, there is the possibility of other sensors e.g. acoustic with the infrared image sensor on a high Link abstraction level and thus a basis for a To create a multi-sensor system.

When checking the radio belonging to the applications a high degree of congruence can be established. This fact becomes apparent within the infrared image sensor construction of modular construction stages tailored to the functions uses, so that by adding, omitting or exchange from construction stages to application-specific image sensors let it go. That means one and the same device is for ver different tasks usable. The invention therefore allows in the sensor-internal electronics following functions to re ALISE:

• - Detector control
• - preprocessing
• - Automatic object detection, position determination, tracking
• - Graphic
• - automatic image enhancement  
• - standard converter
• - Data reduction
• - Interface (MIL-BVS multi-sensor system)

FIG. 2 shows an infrared image sensor and several alternatively selectable construction stages for constructing the electronics 2 according to FIG. 1.

Claims (4)

1. Circuit arrangement for infrared image sensors with a mosaic detector and a signal conditioning downstream electronics, characterized in that the electronics ( 2 ) consists of modular and programmable construction stages for certain image processing functions for setting operational and / or application-specific signal parameters. 2. A circuit arrangement according to claim 1, characterized in that the electronics ( 2 ) by exchanging, adding or removing stages of construction for application-specific tasks is adaptable. 3. A circuit arrangement according to claim 1 or 2, characterized in that in the electronics ( 2 ) adjustment to the bandwidth, the signal level, etc. of the sensor signal by appropriate programming of the construction stages takes place. 4. Circuit arrangement according to one of claims 1 to 3, characterized in that the electrical system ( 2 ) for different sensor heads ( 1 ) can be used.