Photonic Multichannel Spectral Analyzer Model: PMA-11
The PMA-11 is a spectral analyzer that integrates a spectrograph and high performance multi-channel photodetector in a single compact chassis. Light collection is simplified through the use of optical fiber. The diffraction grating of the spectrograph and multichannel photodetector are rigidly fixed, resulting in excellent wavelength reproducibility. The wavelength axis and spectral response characteristics are calibrated at the factory, so that spectral measurements can be carried out easily and accurately. The PMA-11 series offers four different multi-channel photo-detectors to choose from, for additional flexibility in grating selection, allowing the user to optimize the performance for the application at hand. Equipped with a standard SCSI interface, the PMA-11 is easily connected to any type of computer for data collection and analysis.
q Compact Integration of a Spectrograph and Multichannel Photodetector q High Sensitivity q Easy Measurement Using Optical Fiber Input
PMA-11 Standard Configuration
Main unit
HAMAMA TSU
C7473
SIGNAL INPUT
SCSI
Light source Fiber input optics
POWER
Microscope attachment
C5965 (MOS linear image sensor model) C5966 (CCD image sensor model) C7473 (BT- CCD image sensor model) C8147 (InGaAs linear image sensor model)
Basic software
Personal computer
[Standard Configuration] Main unit Fiber input optics Basic software
* SCSI cable not included
Microscope
1 1 1
A compact unit containing a multi-channel photo-detector,and power supply all in one. Optical fiber input makes spectral measurements easier than ever.
FEATURES
q Measurements of the spectrum are easier and more accurate than ever before
The spectrum can now be easily measured by light collection through an optical fiber. The wavelength axis and spectral response characteristics are calibrated at the factory, so that spectral measurements can be carried out easily and accurately.
q Near infrared model : C8147-34, C8147-38
The C8147 realises a simultaneous and high-resolution measurement of absorption or reflection spectra in a near infrared wavelength region with a wide dynamic range and a low noise.
q High efficiency optics
Adoption of a ø 1mm bundle fiber and a bright spectrograph detects a measured light efficiently.
q Superb cost perfomance model : C5965
The C5965 uses a MOS linear image sensor realises high performance and low cost.
q Compact design
H igh performance is built in a small case. This completely new design ensures that the PMA-11 will fit anywhere.
q High sensitivity model : C5966
T he C5699 uses the CCD leaner image sensor has sensitivity a hundred times better than the C5965 model.
q External synchronisation can be used
Measurements can now be carried out synchronised to external trigger signals, allowing measurement of pulse phenomena.
q Ultra-high sensitivity model : C7473-36
T he C7473-36 consists the thermoelectric-cooling type BT-CCD image sensors, which have a high quantum efficiency and a compact CzernyTurner type spectrograph. The simultaneous measurement of the wavelength from an ultraviolet to a near-infrared region with high wavelength resolution and high sensitivity is realised.
q Standard SCSI interface allows connection to computer
APPLICATIONS
[ Scientific applications ] [ Industrial applications ]
q UV to visible spectroscopy q Fluorescence spectroscopy q Raman scattering q Chemiluminescence analysis q Liquid chromatography
q Gas chromatography q ICP emission analysis q Discharge emission analysis q Combustion analysis q Micro spectroscopy
q Water quality testing q Evaluation of light sources q Chromaticity measurements q Impurities testing q Thin film thickness monitors
q UV-ray monitors q Plasma monitors q Fruit tester q Plastic sorting q Color filter testing
MEASUREMENT EXAMPLES
2.0 Relative Intensity
Optical Density 0 300 450 600 Wavelength (nm) 750 900
1.5
1.0
0.5
0.0 500 700 600 Wavelength (nm) 800 900
1Luminescence spectrum of a deuterium lamp
2Absorption spectrum of a didymium filter
0.8
Angle of field : 2˚ Tristimulus value X : 58.25 Y : 100.00 Z: 0.96
Relative Intensity
0.6
Chromaticity coordinates x : 0.3659 y : 0.6281 Dominant wavelength : 559.04 nm
[y]
0.4
Excitation purity : 98.97%
0 300 450 600 Wavelength (nm) 750 900 0.2
3Luminescence spectrum of an LED
0.00. 0.00 0.15 0.30 [x] 0.45 0.60
4Chromaticity coordinates of an LED
Relative Intensity 0 300 450 600 Wavelength (nm) 750 900
5Fluorescence spectrum of fluorosein
63-d display of plasma emission spectra
100 90
75 Transmittance (%) 80 Transmittance (%) 1050 1200 1350 Wavelength (nm) 1500 1650
50
70
25
60 900 0 900 1050 1200 1350 Wavelength (nm) 1500 1650
7Transmittance spectra in near infrared reagion Dotted line: Compact disc Solid line: PET botle
8Transmittance spectra in near infrared reagion Dotted line : Styren monomer Solid line : Polystyren
SPECIFICATIONS
q Main unit
Type No. Photodetector No. of photosensitive device channels Channel size Cooling temepareture Read-out noise Dark current A/D resolution Spectrograph F number Spectrograph type Simultaneous measurement wavelength range 3 Concave spherical grating type 300 nm to 800nm x=1 300 nm to 800 nm x=2 200 nm to 400 nm x=3 600 nm to 1000nm x=1 < 3 nm(FWHM) x=2 < 1.5 nm(FWHM) x=3 < 2.5 nm(FWHM) 200 nm to 950 nm C5965-31 MOS linear image sensor 1024 ch 25 µm(H) × 2.5 mm (V) non-cooling 10 000 electrons 12,500 electrons/scan ( at 25˚C; 20ms ) C5966-3x CCD linear image sensor 1024 ch 24µm (H) × 3.07 mm(V) 0˚C 60 electrons 512 electrons/scan( at 0˚C; 20ms ) C7473-36 BT- CCD linear image sensor 1024 ch 24 µm(H) × 2.928 mm(V) -15˚C 10 electrons 75 electrons/scan ( at -15˚C; 20ms ) 16bit 4 Czerny-Turner type 900 nm to 1650 nm 1600 nm to 2350 nm 0˚C 12,500 electrons 20,000 electrons/scan ( at 0˚C; 5ms ) 2.5 × 107 electrons/scan ( at -10˚C; 5ms ) C8147-34 InGaAs linear image sensor 256 ch 50 µm(H) × 250 µm (V) -10˚C C8147-38
Wavelength resolution * < 3 nm(FWHM) Effective Light-receiving area of optical fiber Optical fiber length Exposure time External trigger input Interface Line voltage
< 2 nm(FWHM) 1mm 1.5m
< 9 nm(FWHM)
< 9 nm(FWHM)
20ms to 32s TTL level / High impedance SCSI AC100V to 240V ±10%, 50, 60Hz (at 312.57nm, 435.84nm, 546.07nm, 696.54nm, 1013.98nm)
5 ms to 32 s
5 ms to 50 ms (typ.)
*Tested by the bright-line spectrum of Hg-Ar lamp
q Basic software
Measurement functions • • • • Spectral measurement Reflection spectra measurement Absorption spectra measurement Color measurement
DIMENSIONAL OUTLINES (Unit :mm)
q C5965. C5966 (approx. 4.5kg)
PHOTONIC MULTI-CHANNEL ANALYZER
PMA-11
SIGNAL INPUT
Temporal resolution measurement functions Data acquisition condition setting Calibration and correction
6±1
• Temporal fluctuation of spectra over time • Temporal fluctuation of reflection factor and transmittance over time • Exposure time • Memory integration count times • Temporal fluctuation measurement • Wavelength axis • Sensitivity uniformity • Dark current • Spectrum (non-limited accumulation) • Temporal fluctuation of waveform over time (non-limited accumulation) • Chromaticity diagram • Wavelength (nm) ,Wavenumber (cm -1), Energy (eV) • Linear, logarithm
POWER
98.5±1
170±1 232±1
3±0.5
40±1
260±1 333±1
q C7473 (approx. 5kg)
PHOTONIC MULTI-CHANNEL ANALYZER
C7473
POWER
Display functions
200±1 262±1
6±1
98.5±1
SIGNAL INPUT
325±1 3±0.5 25±1 383±1
q C8147 (approx. 7.5kg)
PHOTONIC MULTI-CHANNEL ANALYZER
Wavelength axis display Brightness axis display Cursor analysis functions
PMA-11
SIGNAL INPUT
POWER
• • • •
Wavelength (Wavenumber etc.) vs, intensity Peak detection FWHM between two cursors Integrated intensity
200±1 262±1
6±1
123.5±1
375±1 25±1 433±1
3±0.5
+0 12-0.1
+0 10-0.1
Other analytical functions
• Smoothing • Differential waveform • Color measurement
q Fiber input optics (approx.100g)
PVC sheathed SUS flexible tube ( 7)
C1
3
Bundle diameter 1.0 15 strands
80 1500
50
ISO 9001 Certificate: 09 105 79045
5 Product and software package names noted in this documentation are trademarks or registered trademarks of their respective manufacturers.
q q
Subject to local technical requirements and regulations, availability of products included in this promotional material may vary. Please consult with our sales office. . Information furnished by HAMAMATSU is believed to be reliable. However, no responsibility is assumed for possible inaccuracies or omissions. Specifications and external appearance are subject to change without notice. .
© 2001Hamamatsu Photonics K.K.
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JUL /2002 HPK Created in Japan (PDF)
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