EP1225559A2 - Driver circuit for a display device - Google Patents

Abstract

The invention relates to an arrangement for driving display devices and a display device with a driver circuit. The invention further relates to a method for testing driver circuits. Such driver circuits have a decisive influence on the quality of the display devices. Therefore, in order to ensure the quality, the driver circuit must be tested extensively, with the shortest possible test time and little effort. In order to enable such a test, an arrangement for controlling display devices is provided, with M lines which are coupled to AN output stages, which contain at least one multiplexing device (4) and at least one amplifier unit (5) and the M lines to a first switching device (2 ) are coupled, which enables an interruption of a voltage supply to the M lines and a second switching device (3) is provided in at least one output stage (AN) in order to switch the output stage (AN) to a definable potential. This enables a test that can be carried out digitally.

Description

The invention relates to an arrangement for controlling display devices and a Display device with a driver circuit. The invention further relates to a Method for testing driver circuits.

The display technology will always play an important role in the next few years Information and communication technology too. As an interface between people and In the digital world, the display device is of central importance for acceptance modern information systems. In particular, portable devices such as notebooks, Phones, digital cameras, Personal Digital Assistant (PDA) are without the use of Flat displays cannot be realized.

The active matrix displays are of particular importance because this display device rapid image changes, e.g. the representation of a mouse pointer, are realizable. With this active matrix LCD technology, the pixels or pixels actively controlled. The variant most frequently used works with Thin film transistors (TFT-LCD). Transistors made of silicon allow the are integrated directly into each pixel, storing the image signals in the pixel. Around realize different grayscale or colors when displaying information, it is necessary to differentiate the displays or display devices accordingly Control voltages over a wide voltage range. For this control of the Display devices or displays use driver circuits.

Active matrix displays (TFT displays) typically consist of a glass with after externally routed connections to which driver circuits are connected. This Driver circuits convert the image signals that are to be shown on a display. The image information is stored in memories as digital signals. This digital Signals must be converted into analog signals, so that by means of an analog Voltage a corresponding light intensity can be displayed. The one for this Conversion required digital-to-analog converters must convert digital signals into voltages convert that go over a range from less than 20 mV to more than 10 V.

Display units are sold as modules that result from the active matrix TFT displays and assemble the driver circuit. The quality of the driver ICs comes one special meaning too. Since these driver circuits have several hundred connections to the Need to drive the display device, it is very expensive to this driver circuit testing. The test procedure for these driver circuits has a decisive influence on the quality of the display device and thus also on the price of the end devices. Therefore the test time should be as short as possible. Elaborate precision measuring devices for the Testing also have a negative impact on the price of end products. Only with one very high quality of each driver circuit can produce high yields of Display modules and therefore low costs for the end products.

Since driver circuits mainly consist of a large number of digital-to-analog converters exist, the quality of these devices can only be guaranteed if these digital-to-analog converters be seriously tested. Due to the digital-analog conversion of the digital Image signals can be standard test methods for digital logic for this driver circuit do not apply. Because there are many different voltage values over a wide range must be generated and tested, a test for the driver circuits is very complex.

Several analog voltages are typically supplied to a driver circuit from the selection units voltages depending on the digital image signals Select which is then switched through to a corresponding output of the driver circuit and be reinforced. For example. A driver circuit contains 64 lines on which Analog voltages are present and 400 output stages, which means at least 25,600 individual analog voltage values would have to be tested.

A test of every single analog voltage value takes a lot of time because Every single value must be programmed and checked directly. Each selectable Analog voltage must be checked at each output of the driver circuit. The height The number of outputs of such a driver circuit requires a simultaneous one parallel measurement of possibly 400 and more analog outputs. The measurement of many analog outputs with an accuracy of 0.2% of the total Voltage range requires very expensive test equipment. Such a functional test leads to very high test costs and is reflected in a very long test time. at Functional tests, such as the one just described, can also occur errors in the Manufacture of the wafers arise that are not detected or only for unreliable detection can. Critical defects, such as leakage currents between the lines that the analog Live voltages and the output lines can only be detected if the a digital-to-analog converter for the M line carries a voltage that is very different from that Output line voltage deviates. So-called functional tests are known not as meaningful as test procedures and arrangements where defect-oriented Is tested.

The object of the invention is therefore to provide a driver circuit which is within short time and with a very high error coverage.

This object is achieved in that an arrangement for controlling display devices is provided with M lines with at least one multiplexing device and are coupled to a first switching device which interrupts a voltage supply to the M lines and with at least one to the M lines coupled second switching device by means of which at least one of the M lines a definable potential can be switched.

The basic idea of this arrangement according to the invention is a defect-oriented test and a process designed for it. Using additional test hardware that the Drive device or driver circuit is added, it is possible to meet the needs of Avoid very many individual analog measurements, however, the error coverage remains the same and is even improved.

For this purpose, a first switching device is inserted into the M lines. This first switching device interrupts the voltage supply, so that a voltage already present there is no longer driven and is held until possible leakage currents or parasitic capacities result in a discharge. The analog voltages on the M lines can be selected via multiplex devices. The multiplexing devices are controlled by digital signals. By means of these digital signals that the contain the image information to be displayed, which acts as an ideal switch Multiplexing device influences such that a selected voltage on the M lines is switched through to an output N.

According to the invention, a second switching device is provided, by means of which the voltage selected by the multiplex device can be switched to a selectable test reference potential. This selectable or definable test reference potential is preferably provided as a mass. This second switching device connects the voltage switched through by the multiplexing device with a definable test reference potential. By means of this second switching device, it is possible to switch through the M lines that are no longer driven after the opening of the first switching device by controlling the multiplexing device to the second switching device, which switches the line M thus selected to a fixed potential. This potential normally arises on the selected line and can be easily and inexpensively monitored. If this specified potential is not present on the selected line, a faulty driver circuit can be assumed. This enables simple testing for the functionality of the driver circuit. Possible leakage currents between different M lines can be easily detected, because if a special line M _{I is selected} and switched through to the second switching device if there is a leakage current, this leakage current could flow off via the second line, so that when monitoring the output N or the selected line M _I and the incorrectly connected further line would not be at the required level.

In a preferred embodiment of the inventive control circuit, the M lines are coupled to A _N output stages. In addition to the multiplexing device, there is also an amplifier unit in the output stages A _N. This amplifier with adjustable gain factor is designed with high impedance on the input side, which makes it possible to drive the corresponding output with the appropriate strength. The second switching device is preferably arranged in at least one output stage. This ensures that the existing multiplexing devices are used effectively.

In an advantageous embodiment of the invention, the first switching device is such executed, which enables a separate interruption of the M lines Another degree of freedom introduced in the test.

Leakage currents can be between the driver circuit according to the invention Detect individual lines of the M lines. A wrong selection of the Multiplex devices can be detected, for example if line M1 is selected, although M2 was selected.

If the volume resistance of a switch in the multiplex device is too high, lets also find that the voltage of line M is not or with delay is switched through. Leakage currents can also be between an M line and a Detect output N. A test proves to be difficult because the leakage current only occurs if the corresponding multiplex device also the corresponding M line selected. Using these additional tests is increased test coverage possible.

According to the M-lines are driven with a voltage that, for example represents digital signal 1. The M lines of the power supply is disconnected and set to a tri-state.

By arranging the second switching device in at least some of the output stages it is possible to connect all M lines to a test reference potential one after the other turn. After the first switching device has been opened, the M lines remain their voltage value for a period of time until internal parasitic capacities discharge entail. Accordingly, the same voltage value is at the output N for this time measurable, as on line M. By now closing all the second ones Switching devices it is possible to connect at least some of the M lines to that Switch the test reference potential and check which of the M lines on the M lines be switched to zero. If there is a leakage current between one at the test reference potential switched line and a non-driven line M, the non-driven line M also switched to the test reference potential.

In a preferred arrangement for testing these driver circuits are in one Test mode the M lines are all interconnected and with a common one same tension. After a voltage builds up on these lines the first switching device is opened and all lines carry the same voltage. In the output stages in which no second switching devices are arranged, Check the voltage set on the M lines at output N. To the Outputs N of the output stages in which the second switching devices are present and in which the second switching devices are closed, it can be checked whether the Outputs are switched to the test reference potential or not. At the same time, Check the remaining output stages not provided with second switching devices, whether the outputs of these output stages are also switched to the test reference potential. From this one can deduce that between appropriately selected lines M a Short circuit could prevail.

The advantage of this arrangement according to the invention is that the driver circuit for one Display device can be tested almost exclusively digitally, which increases the test time significantly decreased. At the same time, you need much simpler for a digital test Test and measurement devices as for analog measurements. Leave on the basis of the digital test signal very many test states are realized, which means that very high error coverage can be achieved is. Due to the digital nature of the test method, the whole test setup is very robust against interference from electromagnetic radiation.

The object is also achieved by a display device with a driver circuit, in which the N outputs of the driver circuit with N terminals of the display device are connected.

The task is also achieved by a method for testing driver circuits solved, in which the driver circuit at least one voltage on M lines is fed and in which the M lines are coupled to a first switching device and by means of the first switching device the voltage supply to the M lines is interrupted and in which with at least one multiplex device with the M Lines is coupled, one of the M lines is selected, and in which one second switching devices to the supplied voltage on the selected line Test reference potential is switched.

The invention will now be described with reference to embodiments shown in the drawings described and explained in more detail.

Fig. 1

eine Prinzipschaltung einer erfindungsgemäßen Treiberschaltung.

Fig.2

eine detaillierte Schaltungsanordnung einer erfindungsgemäßen Treiberschaltung

Fig.3

eine Anordnung zum Treiben einer Anzeigevorrichtung.

Show it:

Fig. 1

a basic circuit of a driver circuit according to the invention.

Fig.2

a detailed circuit arrangement of a driver circuit according to the invention

Figure 3

an arrangement for driving a display device.

Fig. 1 shows the M lines, which can also be understood as a voltage bus. The M lines in a 6 bit D / A converter usually include 64 individual lines. The M lines are coupled to the first switching device 2. This first switching device 2 enables the voltage supply to the M lines to be interrupted. N output stages A _{N are} connected to these M lines, each output stage A _{N being} connected to at least some of the M lines. As a rule, however, all M lines are connected to each output stage A _N , since each connection of a display device must be supplied with every voltage in order to display image information in the corresponding display area. Multiplexers 4 are present in the output stages A _N. These multiplexing devices 4 are provided for the selection of one of the applied voltages which are supplied via the M lines. The multiplexing devices 4 are coupled to an amplifier 5, which forwards the selected voltage to the output N. A second switching device 3 is provided in at least one output stage A _N. This second switching device 3 is provided to switch the potential connected through to the output stage A _N to a test reference potential.

This second switching device 3 can also be arranged in all output stages A _N. It is also conceivable for the second switching devices 3 to switch to different test reference potentials in the output stages A _N. The second switching devices can also be arranged outside the output stages. The multiplexing devices 4 can also be arranged outside the output stages.

The circuit arrangement just described is shown in more detail in FIG. The lines M ₁ to M _i are supplied with one or more voltages by a voltage generator 7. These lines M ₁ to M _i are supplied to all output stages A ₁ to A _N. These lines M ₁ to M _i are each fed to the multiplexing devices 4 in the output stages. Depending on a digital signal E ₁ to E _N, these multiplexing devices 4 connect a corresponding voltage to the output stage A _N. The first switching device 2 is able to interrupt the lines M ₁ to M _i separately from one another. If necessary, it is also able to connect the lines M ₁ to M _i with one another and thus to enable all lines M ₁ to M _i to be supplied with a voltage.

3 shows an active matrix TFT display, which typically consists of a display glass 10 exists, with leads 13 led out. The source drivers 11 and gate drivers 12 control each of the connections 13. The source drivers 11 typically have several hundred outputs, by means of which on the connections 13 on the display 10 analog voltage value is set.

Claims (10)

Arrangement for controlling a display device
with M lines, which are coupled to at least one multiplexing device (4) and to a first switching device (2) that enables an interruption of a voltage supply to the M lines, and with at least one second switching device (3) coupled to the M lines, by means of which at least one of the M lines can be switched to a definable potential. Arrangement according to claim 1,
characterized in that the M lines are coupled to A _N output stages which contain at least one multiplexing device (4) and at least one amplifier unit (5) and in at least one output stage (A _N ) a second switching device (3) is provided around the output stage (A _N ) to switch to a definable potential. Arrangement according to claim 1,
characterized in that second switching devices (3) are contained in all output stages A _N. Arrangement according to claim 1,
characterized in that the multiplex device (4), which can be controlled by a digital signal, is provided for connecting a voltage present on the M lines to the output stage A _N. Arrangement according to claim 1,
characterized in that the second switching device (3) in the output stage (A _N ) switches the line M selected by the multiplexing device (4) to a test reference potential. Arrangement according to claim 1,
characterized in that the first switching device (2) connects the M lines to a common potential in a test mode and separates them from this potential. Arrangement according to claim 1,
characterized in that a voltage generator generates at least one voltage for supply to the M lines. Arrangement according to claim 1,
characterized in that the switching devices (2, 3) can be controlled separately. Display device with a driver circuit according to Claims 1 to 8, in which the output stages (A _N ) are connected to N terminals of a display device. Method for testing a driver circuit, in which at least one voltage on M lines is supplied to the driver circuit and in which the M lines are coupled to a first switching device (2) and the voltage supply to the M lines is interrupted by means of the first switching device (2) and in which one of the M lines is selected with at least one multiplexing device which is coupled to the M lines,
and in which the supplied voltage on the selected line is switched to a test reference potential with a second switching device (3).

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