NIR-512×1 InGaAs linear detector


NIR-512x1 InGaAs linear array detector is mainly composed of low-noise readout circuit (ROIC), P-I-N structure InGaAs photosensitive chip and primary thermoelectric cooler (TEC), and adopts ceramic packaging form. This instruction manual only describes this detector.



Product model


Name Model Price
NIR-512×1 InGaAs linear detector   [PDF]  [RFQ]

PL-1700-IGLA-AR25250-5121
Stock NO.: E80040504
[Please inquire]


Parameter



Features

● Positive irradiation structure

● High aspect ratio photosensitive surface

● High sensitivity

● Internally integrated thermoelectric

Specifications

Optical and electrical performance

Index

Typical

Response spectrum range (μm)*1

0.95 ±0.05~1.7 ±0.05

Pixel filling rate (%)

100

Quantum Efficiency (%)

≥65

Peak   detection rate (cm·√Hz/W )

≥1×1012

Peak sensitivity (A/W)

≥0.8

Effective pixel rate (%)*2

100

Response inconsistency (%)

<4

Readout mode

IWR、ITRoptional

Readout rate (MHz)

≥10

Maximum frame rate (fps)

>20k

Gain gear

8

Saturation voltage (V)

1.6

Conversion gain (nV/e-)

Gain gear116000

Gain gear28000

Gain gear34000

Gain gear42665

Gain gear51775

Gain gear6840

Gain gear7325

Gain gear8160

Notice:

*1 Focal plane temperature=25℃

*2 The deviation between the pixel response signal and the average value is less than a certain range's the percentage of pixels.


Response spectrum(TYP)

512.3.png


Schematic diagram of detector working principle and connection mode

512.4.png

Mechanical capacity

Terms

TYP

Length x width x height (mm)

28 × 15 × 6.2

Weight (g)

~9

Focal Plane Scale

512 × 1

Pixel Center Distance (μm)

25

Pixel Size (μm)

25 ×250

Sensing Area (mm)

12.8 ×0.25

Dimensions and Pin definitions

Mechanical Specifications

The detector adopts ceramic packaging form, filled with atmospheric pressure high-purity nitrogen, the shell material is AL203 ceramic, the cover plate and pin are made of FeNiCoSi alloy, the surface is plated with Ni/Au layer, the window welding method is In series brazing, and the cover form is resistance welding. The overall dimension of the detector is 28mm (L) × 15mm(W) × 6.2mm (H) 。 There are 30 pieces Φ0.45mm pins on the shell and lead out from the back with a spacing of 1.778mm. They are used for the input of focal plane power supply and command,the focal plane detection signal,the electrical output of the temperature sensor and the power input of the thermoelectric cooler.

The appearance and size of mechanical interface are shown in the figure below.


256.2.png


Optical configuation

This product adopts 512×1 InGaAs focal plane which has two redundant elements at the left and right ends,the overall number of pixels is 516×1.Columns 3 to 514 are recommended for actual use.The shape of the pixel is rectangular, and the photosensitive size is 25μm×250μm.The structure is arranged in a "一" shape, and the pixel center distance is 25μm.The structure is shown in the figure below.

The design distance between the detector's photosensitive surface and the upper surface of the packaging structure is 1.86±0.1mm, the design distance between the photosensitive surface and the lower surface of the window is 1.16 ± 0.1mm,the design distance between the photosensitive surface and the mounting surface or the bottom of the tube shell is 4.34±0.1mm.The window material is sapphire,the thickness is 0.5±0.05mm the window refractive index is 1.76,the surface is coated with AR film,the transmittance in the response band>95%,and the window transmittance area is 16mm×3mm.The center of the photosensitive surface is located at the center of the detector,and the relative position deviation≤0.05mm,rotation displacement≤0.02mm.

256.3.png

Schematic diagram of detector pins

256.5.png

Pin Names

Input/Output

Pin function

Reference value

GND

Input

ground   wire

Working current<10mA

CLK

Input

A   clock that provides a time reference for circuit driven timing

Digital voltage;
  High level 3.3V, low level 0V

VDDD

Input

Digital circuit power supply, providing voltage to the digital circuit in the detector

Dc   3.3V, working current needs to be<5mA

VDDA

Input

An analog circuit power supply that provides voltage to the analog circuit in   the detector

Dc   3.3V, working current needs to be<25mA

SC1   SC2 SC3

Input

Detector gain selection, control detector output signal size, the control method is   detailed in the timing section

Digital voltage
  High level 3.3V, low level 0V

ST

Input

Trigger the pulse, and the circuit begins to collect signals

Digital   voltage
  High level 3.3V, low level 0V

RESET

Input

Reset the signal and control the length of the circuit acquisition cycle. See the   timing section for the control method

Digital   voltage
  High level 3.3V, low level 0V

SH1   SH2 SH3

Input

Sample the control signal, set the pixel integration time, and change the readout   mode. See the time sequence section for the control method

Digital voltage
  High level 3 3V, low level 0V


Pin   Names

Input/Output

 Pin function

Reference   value

VBOUT

Input

Buffer   offset to provide the bias voltage for the total buffer of the circuit

DC2.3V

VBOP

Input

The   amplifier is biased to provide the bias voltage for the signal amplifier

DC2.3V~2.5V Recommend

2.4V

VREF

Input

Reference voltage, which provides a reference value for the output signal

DC2.3V

VNDET

Input

Chip   common N

DC2.3V

VBUF

Input

When   in use, short connect with VBOUT pin

DC2.3V

STBUF

Input

When used, it should be short connected with the ST pin

Digital   voltage
  High level 3.3V, low level 0V

VOUTR

Output

Reference   signal

0.5V~2.5V

VOUTS

Output

The output signal is subtracted from the reference signal of the same channel to obtain the actual detector response signal value

0.5V~2.5V

TS

-

The temperature sensor measures the resistance value through two pins to feedback the operating temperature of the focal plane


TEC+TEC-

-

The input voltage of the thermoelectric refrigerator is + pin for refrigeration   when connected to high potential, and for heating when connected to low   potential Empty foot

The rated voltage and current of TEC shall not be exceeded

NC

-

The input voltage of the thermoelectric refrigerator is + pin for refrigeration   when connected to high potential, and for heating when connected to low   potential Empty foot


Notice:

The DC input directly affects the overall noise of the detector, so the ripple noise of the DC input power supply has the following requirements:

1)   VDDA<2mV

2)   VDDD<10mV

3)   VREF, VNDET<0.3mV

4)   VBOP, VBOUT<1mV

Application

● Industrial testing

● machine vision

● spectral analysis

● Material sorting



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