C7973 Datasheet, PDF(1/7 Page) Hamamatsu Corporation – CCD multichannel detector head

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C7973 Datasheet, PDF (1/7 Pages) Hamamatsu Corporation – CCD multichannel detector head

IMAGE SENSOR

CCD multichannel detector head

C7973

Designed for back-thinned CCD area image sensor

C7973 is a high sensitivity multichannel detector head for use with back-thinned FFT-CCD area image sensors (S7963, S7964, S7965) that offer

high UV sensitivity and quantum efficiency. C7973 incorporates a low-noise driver/amplifier circuit that provides reliable operation from simple

external signals. C7973 includes a highly stable temperature controller that cools the sensor to a preset temperature level (Ts= -10 ËC) as soon as

the power is turned on. If the cooler fails and causes internal circuitry to overheat, the built-in protection circuit automatically turns off the power to

the thermoelectric cooler. Despite its compact size, the housing configuration is designed for good heat dissipation, and threaded mounting holes

on the front panel allow connections to other devices such as monochrometers.

Features

l Designed for back-thinned CCD area image sensor *1

l Line binning operation/area scanning operation *2

l Driver/amplifier circuit for low noise CCD operation

l Highly stable temperature controller

Cooling temperature: -10 Â± 0.05 ËC

(Ta=10 to 35 ËC)

l Simple signal input operation

l Compact configuration

Applications

l Fluorescence spectroscopy

l Raman spectroscopy

l Other low-light-level detection

The table below shows CCD area image sensors applicable for C7973.

Since C7973 does not include a CCD area image sensor, so select the desired sensor and order it separately.

CCD area image sensor

Type No.

Number of pixels

Number of active pixels

Active area

[mm (H) Ã mm (V)]

S7963

80 Ã 72

64 Ã 64

1.536 Ã 1.536

S7964

124 Ã 56

108 Ã 48

2.592 Ã 1.152

S7965

232 Ã 56

216 Ã 48

5.184 Ã 1.152

*1: In normal CCD image sensors that receive light from the front surface, the active area is covered with electrodes for charge transfer.

These electrodes cut off UV radiation incident on the image sensor and also reduce the quantum efficiency. In contrast, back-

thinned CCD image sensors have a unique structure in which the back of the active area is finely ground to allow light to enter from

the back surface. This structure ensures high UV sensitivity and quantum efficiency because incident light need not pass through the

electrodes.

*2: The FFT-CCD was originally designed as a two-dimensional image sensor. However, it can be operated like a linear image sensor

having a large active area by transferring all the pixel signals in the vertical direction to the horizontal register (this is referred to as

line binning).

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