JPS62185458A - Image sensor reader - Google Patents

Abstract

PURPOSE:To effectively correct a picture element signal due to temperature change in an environment having a large temperature change by holding a dummy signal voltage of a storage type image sensor. CONSTITUTION:A signal V22 is outputted from the storage type image sensor 21 by using a drive signal phi21 outputted from a timing control section 28. The signal V21 is amplified by a DC amplifier 22 to obtain a signal V22. A switch 24 is closed by a signal phi22 from the timing control section 28 with a dummy signal and a capacitor 23 is charged depending on the potential difference between the voltage V22 and a reference voltage Vr of the reference voltage source 25. The capacitance of the capacitor 23 is selected as a value holding the voltage over one scanning time of the storage image sensor 21. At the time of the picture element signal is outputted, the switch 24 is opened and the output voltage V23 of the capacitor 23 has a value being the subtraction of the voltage stored in the capacitor 23 from the input voltage V22. Thus, the change in the picture element signal due to temperature change is corrected.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a storage type image sensor reading device, and particularly to an image sensor that can effectively correct pixel signals due to temperature changes, especially in an environment with large temperature changes. This relates to a reading device.

[Prior Art] Conventionally, as a method for correcting pixel signals due to temperature changes, pixel signals due to temperature changes are corrected by providing means for holding a signal voltage in synchronization with a reset signal applied to an accumulation type image sensor. is proposed. An example of such a conventional image sensor reading device is shown in FIG.

Here, 11 is a storage type image sensor, 12 is an amplifier,
13 is a signal voltage holding capacitor, 14 is capacitor 1
3 is a charge/discharge control switch, 15 is a timing control unit 16 which is a coupling capacitor, and 17 is a buffer amplifier.

The storage type image sensor 11 is activated at the timing of the drive signal φ□ and the reset signal φ12 from the timing control unit 15.
The pixel signal Vl+ is taken out from. The relationship between these signals is shown in FIG. This pixel signal Vl+ is amplified by an amplifier 12 AC-coupled by a capacitor 16 to obtain a signal VI2.

The voltage of this signal v1□ is held in the ° capacitor 13 by the switch 14 which is turned on in synchronization with the reset signal φ12. Next, the switch 14 is opened, and in this state, the signal V12 is subjected to DC regeneration with Ov as a reference, and the signal V is obtained.

However, in the conventional device as described above, if the switch 14 is opened and closed at a higher speed in an attempt to read the signal at high speed, it becomes difficult to maintain a signal synchronized with the reset signal.

[Problems to be Solved by the Invention] Therefore, an object of the present invention is to provide an image sensor reading device that eliminates the above-mentioned drawbacks in high-speed reading and can correct changes in pixel signals due to temperature changes. It's about doing.

Another object of the present invention is to provide an image sensor reading device that can perform such correction and level shift the pixel signal by adjusting the set reference voltage to the reference voltage in the circuit system of a desired part. .

[Means for Solving the Problems] The present invention focuses on the fact that in an accumulation type image sensor, a dummy signal is output for a long time before a pixel signal is output, and the voltage of this dummy signal is accumulated. Each image sensor scan is held against a predetermined reference voltage.

That is, in order to achieve the above object, the present invention amplifies a pixel signal from an accumulation type image sensor with DC current, supplies the amplified output to a capacitor, and connects a reference voltage to the other end of the capacitor only during the dummy signal. is applied to correct changes in pixel signals due to temperature changes in the storage image sensor, and to level shift the pixel signals to the reference voltage.

[Function] According to the present invention, by holding the dummy signal voltage of the storage type image sensor, it becomes possible to correct the pixel signal voltage due to temperature change. Moreover, when the dummy signal voltage is held, the voltage of the reference voltage source can be level-shifted to match the circuit system of a desired part such as the next stage, for example, an A/D converter.

[Example] The present invention will be described in detail below with reference to the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention, and FIG. 2 is a time chart for explaining the operation of the circuit shown in FIG.

In FIG. 1, 21 is an accumulation type image sensor, 22 is a DC amplifier that DC amplifies the signal from the sensor 21, and 23 is a storage type image sensor.
is a capacitor for holding the voltage during dummy signal, 2
4 is a switch that is closed only when a dummy signal is present to connect the capacitor 23 and the reference voltage source 25; 26 is a switch that connects the capacitor 23;
27 is an A/D converter for converting the pixel signal from buffer amplifier 26 into a digital signal; 28 is storage type image sensor 2;
1. This is a timing control section that controls the switch 24 and the A/D converter 27.

Next, the operation of the circuit shown in FIG. 1 will be explained with reference to FIG. Drive signal φ output from timing control section 28
2. As a result, the signal V21 is output from the storage image sensor 21.
is output. This signal V21 is amplified by a DC amplifier 22 to obtain a signal v22. At the time of the dummy signal, the switch 24 is closed by the signal φn from the timing control unit 28, and the capacitor 23 is charged according to the potential difference between the voltage V and the reference voltage Vr of the reference voltage source 25.

The capacitance value of the capacitor 23 is set to a value that can hold the voltage for one scanning period of the storage type image sensor 21.

Next, when the pixel signal is output, the switch 24 is opened and the output voltage V23 of the capacitor 23 is changed to the input terminal V23.
, minus the voltage held in the capacitor 23. This makes it possible to correct changes in pixel signals due to temperature changes.

Further, this value corresponds to the amplitude of the pixel signal level-shifted to the reference voltage Vr.

The voltage V23 is converted into a low impedance signal by a buffer amplifier 26, and then inputted to an A/D converter 27, where it is converted into a digital signal. The pixel signal of the A/D converter 27 can be adjusted by adjusting the reference voltage of the A/D converter 27 to the reference voltage Vr and adjusting the amplification factor of the DC amplifier z2 to the input voltage range of the A/D converter 27. It is possible.

In the above embodiment, the reference voltage Vr of the reference voltage source 25 is a positive voltage, but it goes without saying that it may be a negative voltage or Ov.

[Effects of the Invention] As is clear from the above description, according to the present invention, by holding the dummy signal voltage of the storage type image sensor, it is possible to correct the pixel signal voltage due to temperature change. Moreover, when the dummy signal voltage is held, the voltage of the reference voltage source can be level-shifted to match the circuit system of a desired part such as the next stage, for example, an A/D converter.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a time chart for explaining the operation of the circuit shown in FIG. 1, and FIG. 3 is a block diagram showing an example of a conventional image sensor reading device. , FIG. 4 is a time chart for explaining the operation of the circuit shown in FIG. DESCRIPTION OF SYMBOLS 11... Accumulation type image sensor, 12... Amplifier, 13... Holding capacitor, 14... Switch, 15... Timing control part, 16... Coupling capacitor, 21... Accumulation type image Sensor, 22... DC amplifier, 23... Capacitor, 24... Switch, 25... Reference voltage source, 26... Buffer amplifier, 27... A/D converter, 28... Timing control section. ψ2. "Bottom logo vr-・-11-cho-11---------------11-Fig. 2 I navy blue 15 I go/) 7°°! , Tips'2r2 Figure 3

Claims (1)

[Claims] 1) DC amplify the pixel signal from the accumulation type image sensor, supply the amplified output to a capacitor, and apply a reference voltage to the other end of the capacitor only when a dummy signal is generated. An image sensor reading device characterized in that the pixel signal is level-shifted to the reference voltage while correcting a change in the pixel signal due to a temperature change of the sensor.