Television – Camera – system and detail – Solid-state image sensor
Reexamination Certificate
1998-02-17
2003-12-23
Moe, Aung S. (Department: 2612)
Television
Camera, system and detail
Solid-state image sensor
C348S313000
Reexamination Certificate
active
06667768
ABSTRACT:
TECHNICAL FIELD
This disclosure relates to active image capturing using photodiodes. More particularly, the present disclosure describes to active pixel devices using photodiodes as their active elements.
BACKGROUND
Active pixel devices include a light sensing element, and internal image processing structure. Many active pixel sensors, such as that described in U.S. Pat. No. 5,471,515, the disclosure of which is incorporated by reference herein, have a buffer structure, e.g., a source follower, as part of each pixel.
Active pixel sensors can use photodiodes or photogates, or other light sensitive elements. In many photodiode type active pixels, the light sensitive element is directly connected to the active pixel amplifier and/or buffer.
A global shutter effect commands all the pixels to integrate for the same short absolute period of time. This effectively freezes the motion of objects. However, in a photodiode device, an external light blocking shutter has typically been used to stop the photodiode from accumulating photosignal.
FIG. 1
shows one approach. A sampling switch
102
and capacitor
104
are used. Sampling switch
102
is placed between the photodiode
100
and the capacitor
104
. The capacitor charge node
106
is connected to the active pixel amplifier
110
. The photodiode voltage is sampled by a closing switch
102
and allowing the charge from the photodiode to charge sampling capacitor
104
. Switch
102
and capacitor
104
are covered by a metallic light shield to avoid pickup of undesirable light signal. This allows freezing the charge output at any given time.
However, the charge from the photodiode
100
is shared onto the capacitor
104
in the voltage domain. When the switch
102
is closed, the charge flows from the photodiode
102
in order to equalize the voltage between photodiode output and capacitor
106
node. Thus, the maximum signal-induced voltage swing of the capacitor
104
may be limited by the voltage of the photodiode. Since charge is shared, the voltage swing is in fact, always lower. Furthermore, turning off the sampling switch may itself inject charge to the sampling capacitor. This, in turn, adds offset and noise.
SUMMARY
The present disclosure describes an approach to this drawback described above. This is done by enabling voltage gain between the photodiode
100
and its sensing node.
The embodiment reduces lag in a photodiode-type active pixel for a global electronic shutter. More particularly, the invention operates in three modes to achieve improved image quality and photodiode performance.
In the first mode of operation, an image is captured by a photodiode array. Lag is reduced when the photodiodes are globally reset by a flood and spill of charge cycle. A readout phase follows the reset phase. During this second phase, image quality is improved by the elimination of fixed pattern noise through the comparison of the photosignal level and the reset level of the floating drain.
In the second mode of operation, global shutter simultaneous integration and readout processes are achieved by cessation of charges which trickle out over the transfer gate as in the first mode.
In the third mode of operation, lower conversion gain of a combined photodiode is achieved by restoring the sensor to normal operation through regulation of the reset photodiode and the transfer gate.
The details of one or more embodiments of the invention are set forth in the accompanying drawings and the description below. Once the details of the invention are known, numerous additional innovations and changes will become obvious to one skilled in the art.
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Dickstein , Shapiro, Morin & Oshinsky, LLP
Moe Aung S.
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