IMAGE SENSOR CCD multichannel detector head C10150, C10151 Designed for back-thinned CCD area image sensor C10150 and C10151 are high sensitivity multichannel detector heads for use with back-thinned FFT-CCD area image sensors (S10140/S10141 series) that offer high UV sensitivity and quantum efficiency. C10150 is designed for the non-cooled back-thinned CCD image sensor (S10140 series), while C10151 for the one-stage TE-cooled CCD area image sensors (S10141 series) for detection at even lower light levels. Both C10150 and C10151 incorporate a low-noise driver/amplifier circuit that provides reliable operation from simple external signals. C10151 also includes a highly stable temperature controller that cools the sensor to a preset temperature level (Ts= -10 ˚C) 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. The table below shows back-thinned CCD image sensors for C10150 and C10151. C10150 and C10151 do not come with a CCD image sensor, so select the desired sensor and order it separately. Controller for multichannel detector head C7557 is also available. The software supplied with the C7557 allows easy control of the multichannel detector head and data acquisition. Features Applications l Designed for back-thinned CCD area image sensor *1 C10150: for non-cooled type (S10140 series) C10151: for TE-cooled type (S10141 series) l Line binning operation *2/area scanning operation l Driver/amplifier circuit for low noise CCD operation l Highly stable temperature controller (C10151) Cooling temperature: -10 ± 0.05 ˚C l Simple signal input operation l Compact configuration l Fluorescence spectroscopy l Raman spectroscopy l Other low-light-level detection ■ Selection guide The table below shows CCD area image sensors applicable for C10150, C10151. Since C10150, C10151 do not include a CCD area image sensor, so select the desired sensor and order it separately. CCD area image sensor Type No. C10150 C10151 Type No. Number of pixels Number of active pixels S10140-1007 S10140-1008 S10140-1009 S10140-1107 S10140-1108 S10140-1109 S10141-1007 S10141-1008 S10141-1009 S10141-1107 S10141-1108 S10141-1109 1044 × 128 1044 × 256 1044 × 512 2068 × 128 2068 × 256 2068 × 512 1044 × 128 1044 × 256 1044 × 512 2068 × 128 2068 × 256 2068 × 512 1024 × 122 1024 × 250 1024 × 506 2048 × 122 2048 × 250 2048 × 506 1024 × 122 1024 × 250 1024 × 506 2048 × 122 2048 × 250 2048 × 506 Active area [mm (H) × mm (V)] 12.288 × 1.464 12.288 × 3.000 12.288 × 6.072 24.576 × 1.464 24.576 × 3.000 24.576 × 6.072 12.288 × 1.464 12.288 × 3.000 12.288 × 6.072 24.576 × 1.464 24.576 × 3.000 24.576 × 6.072 *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, backthinned 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). 1 CCD multichannel detector head C10150, C10151 ■ Absolute maximum ratings Parameter Supply voltage (for digital circuitry) Supply voltage (for analog circuitry) Supply voltage Digital input voltage Operating temperature Storage temperature Symbol VD1 VA1+ VA1VA2 VD2 Vp VF - C10150 C10151 C10150 C10151 Topr Tstg Min. -0.5 0 +10 -20 0 Typ. - Max. +7 +18 -18 +30 +7 +7 +14 VD1 +50 +35 *3 +70 +50 Unit V °C ■ Electrical characteristics (Ta=25 °C, VD1=+5 V, VA1+=+15 V, VA1-= -15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12 V, unless otherwise noted) Parameter High level Low level Digital input CLK frequency Data video readout frequency Start pulse width High level (Io= -6 mA) Low level (Io=+6 mA) Digital output Symbol VIH VIL fCLK fv tst VIH VIL Min. +2.0 -0.5 1/fCLK +2.0 - Typ. - Max. +5.0 +0.8 1 fCLK/4 +0.8 Unit V V MHz Hz s V V VD VA1+ VA1VA2 VD2 Vp VF - +4.75 +14.5 -14.5 +23.5 +4.75 +4.75 +11.75 - +5.0 +15.0 -15.0 +24.0 +5.0 +5.0 +12.0 +100 +5.25 +15.5 -15.5 +24.5 +5.25 +5.25 +12.25 +200 +100 -100 +30 +30 +2.5 - V V V V V V V mA mA mA mA mA A mA Power supply operating conditions Digital circuitry Analog circuitry Voltage Other VD1 (+5 VDC) VA1+ (+15 VDC) VA1- (-15 VDC) VA2 (+24 VDC) VD2 (+5 VDC) *4 Vp (+5 DC) *4 VF (+12 VDC) *4 Current ■ Electrical and optical characteristics (Ta=25 °C, Ts= -10 °C, VD1=+5 V, VA1+=+15 V, VA1-= -15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12 V, unless otherwise noted) Parameter Typ. Max. Unit 200 to λ Spectral response range nm 1100 Vertical 60000 75000 Full well capacity Fw e Horizontal 120000 150000 Conversion gain *5 Sv 45 56 67 µV/e C10150 (Ta=25 °C) 100 1000 Dark current *6 DS e /pixels/s C10151 (Ta= -10 °C) 1.5 15 Readout noise Nr 20 45 e rms Line binning 7500 Dynamic range DR Area scanning 3750 Photo response non-uniformity *7 PRNU ±3 ±10 % *3: The maximum value may be lower, depending on the drive frequency and the number of sensor pixels. *4: C10151 *5: Including the circuit gain. *6: At MPP mode. Vertical register value. The actual value equals the sum of the vertical direction because of the binning operation. *7: Measured at 50 % of the full well capacity. 2 Symbol Min. CCD multichannel detector head C10150, C10151 ■ Specifications for temperature controller (C10151) (Ta=25 °C, VD1=+5 V, VA1+=+15 V, VA1-= -15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12 V, CLK frequency 210 kHz, unless otherwise noted) Parameter *8 Symbol Min. Typ. Max. Unit Cooling temperature Ts -11 -10 -9 °C Temperature control range -0.05 +0.05 °C ∆Ts Power dissipation of TE-cooler element Pp 7 W Cool down time to reset temperature to 5 min. Setting temperature for overheat protection *9 To +45 °C *8: Other functions include error display, automatic power off, and detection of electrical opens and shorts by the thermosensor. *9: Temperature on the rear of the case (where the fan is installed). ■ Spectral response (without window) *10 70 60 50 40 30 FRONT-ILLUMINATED (UV COAT) 20 10 0 200 100 DARK CURRENT (e-/pixel/s) 80 (Typ.) 1000 BACK-THINNED S10140/S10141 SERIES 90 QUANTUM EFFICIENCY (%) ■ Dark current vs. temperature (Typ. Ta=25 ˚C) 100 10 1 0.1 FRONT-ILLUMINATED 400 600 800 1000 0.01 -50 1200 -40 -30 -20 -10 0 10 20 30 TEMPERATURE (˚C) WAVELENGTH (nm) KMPDB0254EA KMPDB0255EA *10: Spectral response with quartz glass (or AR-coated sapphire glass) is decreased by the transmittance ■ Device structure (Conceptual drawing) THINNING 23 21 15 20 13 14 H 1 2 24 n 5 4 3 2 12345 4 BEVEL THINNING V SIGNAL OUT 2 BEVEL 22 12 2 11 3 4 BLANK 4 5 8 2 6 BEVEL n V=122, 250, 506 H=1024, 2048 10 9 SIGNAL OUT 6 BEVEL 4 BLANK KMPDC0244EA 3 CCD multichannel detector head C10150, C10151 ■ Block diagram (C10151) P+ Vp (+5V) P. GND VD2 (+5V) D. GND PLED TH+ TH- VF (+12V) F. GND Temp Monitor Cooling Control VD1 (+5V) D. GND VA1+ (+15V) VA1- (-15V) A. GND TEMPERATURE CONTROLLER * TE-COOLER * OD RD OG IG1H, IG2H IG1V, IG2V P1V, P2V, TG TH.H REGULATOR P1H, P2H SG RG VA2 (+24V) Start CLK VEE VDD DRIVER TIMING GENERATOR EOS Trigger Mode Select SS, ISV, ISH BUFFER Data Video OS PRE-AMP INVERTER CCD AREA IMAGE SENSOR S10141 SERIES CLAMP LOW-PASS FILTER * C10150 does not include the temperature controller and TE-cooler. CCCKACCC0313EA ■ Timing chart (line binning operation) Start CLK P1V P2V TG P1H P2H SG RG Clamp EOS Trigger Data Video H-ch10 V-ch1 H-ch11 V-ch2 H-ch(N-10) H-ch(N-9) V-ch(M) H-ch1 H-ch2 H-ch(N) M=128, 256, 512 N=1044, 2068 V-ch1--V-ch2, V-ch (M-3)--V-ch (M): ISOLATION PIXELS H-ch1--H-ch4, H-ch (N-3)--H-ch (N): BLANK PIXELS KACCC0319EC 4 CCD multichannel detector head C10150, C10151 ■ Pin connection of "SIGNAL I/O" connector 15-pin D-sub connector 8 7 15 6 14 5 13 4 12 3 11 2 10 1 9 KACCC0069EA Pin No. Terminal name 1 Mode select 2 3 4 5 Data video VA1+ (+15 V) VA1- (-15 V) VD1 (+5 V) 6 Start 7 CLK 8 EOS 9 10 11 12 13 14 15 A. GND A. GND VA2 (+24 V) D. GND D. GND D. GND Trigger Description Digital input signal used to select between the line binning operation and area scanning operation. HCMOS compatible. High level or left open: line binning operation Low level: area scanning operation Analog video output. Positive polarity Analog power supply Analog power supply Digital power supply Digital input signal for initializing the circuit. HCMOS compatible. Positive logic. The interval of the Start pulses determines the integration time of the CCD image sensor. Digital input signal for operating the circuit. HCMOS compatible. Rising edge operation. Digital output signal for indicating end-of-scan of the image sensor. HCMOS compatible. Negative logic. Analog ground Analog ground Analog power supply Digital ground Digital ground Digital ground Digital output signal for A/D conversion. HCMOS compatible. Positive logic. ■ Pin connection of "TE CONTROL I/O" connector (C10151) 9-pin D-sub connector 5 4 9 3 8 2 7 1 6 KACCC0075EA Pin No. 1 2 Terminal name VD2 (+5 V) Temp monitor Description Digital power supply Analog output signal of the temperature of the CCD image sensor Digital input signal for starting to cool down. HCMOS compatible. 3 Cooling control High level or left open: cooling Low level: stand-by Power supply for the thermoelectric cooler in the CCD image sensor. 4 Vp (+5 V) (Please use AWG 18 wire) 5 VF (+12 V) Power supply for cooling fan 6 D. GND Ground 7 D. GND Ground Power supply return of the thermoelectric cooler mounted in the CCD image sensor. 8 P. GND (Please use AWG 18 wire) 9 F. GND Power supply return for cooling fan Available for using same power supply (+5 V) for "+VD2" and "+Vp". Caution) Do not connect "VD2" and "Vp" together on the backside of the 9-pin D-sub connector. These may be connected (shorted) at the power supply end, not 9-pin D-sub connector. 5 CCD multichannel detector head ■ Dimensional outlines (unit: mm) C10150 34.0 2.7 0.5 0.3 FOCAL PLANE FOCAL PLANE 50.0 11.0 62.0 82.0 50.0 80.0 60.0 90.0 100.0 (4 ×) M3 DEPTH 4 KACCA0062EB 35.0 C10151 34.0 2.9 0.5 FOCAL PLANE 77.0 62.0 FOCAL PLANE 50.0 11.0 82.0 50.0 80.0 60.0 90.0 100.0 (4 ×) M3 DEPTH 4 KACCA0063EB ■ Connection example TE CONTROLLER POWER SUPPLY VF (+12V) F.GND VP (+5V) P.GND VD2 (+5V) D.GND CONTROLLER Cooling Control D.GND 5 9 4 8 3 7 6 2 1 I/O SIGNAL PULSE GENERATOR POWER SUPPLY 6 CLK D.GND Start D.GND VD1 (+5V) D.GND VA1+ (+15V) VA1- (-15V) VA2 (+24V) A.GND CONTROLLER Mode Select D.GND S/H or A/D Analog Input A.GND S/H Input D.GND OSCILLOSCOPE CH1 GND Ext.Trig GND 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 KACCC0076EC C10150, C10151 CCD multichannel detector head C10150, C10151 Multichannel detector head controller C7557 When connected to a HAMAMATSU multichannel detector head and a personal computer, C7557 allows easy control of the detector head and data acquisition by using dedicated software that comes with the unit. Suitable multichannel detector head C7020/-02, C7021/-02, C7025/-02, C7040, C7041, C7043, C7044, C7180, C7181, C8061-01, C8062-01, C10150, C10151 ■ Accessories · SCSI terminator · Fuse (2.5 A) · Detector head connection cables · AC cable · Software (Compatible OS: Windows 98/ME *) · Operation manual * This software may be run on Windows 2000/NT/XP with a simple task. For information on how to do this, please consult with our sales office. ■ Connection SHUTTER *1 TIMING PULSE Trig. POWER DEDICATED CABLE (WITH C7557) SIGNAL I/O SCSI *2 CABLE TE CONTROL I/O IMAGE SENSOR + MULTICHANNEL DETECTOR HEAD C7557 PC (Windows98/ME) (INTEGRATED SCSI BOARD) *1: Shutter, etc. are not available. *2: SCSI cable and SCSI board (card) are not supplied with C7557. KACCC0077ED Information furnished by HAMAMATSU is believed to be reliable. However, no responsibility is assumed for possible inaccuracies or omissions. Specifications are subject to change without notice. No patent rights are granted to any of the circuits described herein. ©2007 Hamamatsu Photonics K.K. HAMAMATSU PHOTONICS K.K., Solid State Division 1126-1 Ichino-cho, Higashi-ku, Hamamatsu City, 435-8558 Japan, Telephone: (81) 53-434-3311, Fax: (81) 53-434-5184, www.hamamatsu.com U.S.A.: Hamamatsu Corporation: 360 Foothill Road, P.O.Box 6910, Bridgewater, N.J. 08807-0910, U.S.A., Telephone: (1) 908-231-0960, Fax: (1) 908-231-1218 Germany: Hamamatsu Photonics Deutschland GmbH: Arzbergerstr. 10, D-82211 Herrsching am Ammersee, Germany, Telephone: (49) 08152-3750, Fax: (49) 08152-2658 France: Hamamatsu Photonics France S.A.R.L.: 19, Rue du Saule Trapu, Parc du Moulin de Massy, 91882 Massy Cedex, France, Telephone: 33-(1) 69 53 71 00, Fax: 33-(1) 69 53 71 10 United Kingdom: Hamamatsu Photonics UK Limited: 2 Howard Court, 10 Tewin Road, Welwyn Garden City, Hertfordshire AL7 1BW, United Kingdom, Telephone: (44) 1707-294888, Fax: (44) 1707-325777 North Europe: Hamamatsu Photonics Norden AB: Smidesvägen 12, SE-171 41 Solna, Sweden, Telephone: (46) 8-509-031-00, Fax: (46) 8-509-031-01 Italy: Hamamatsu Photonics Italia S.R.L.: Strada della Moia, 1/E, 20020 Arese, (Milano), Italy, Telephone: (39) 02-935-81-733, Fax: (39) 02-935-81-741 Cat. No. KACC1127E04 May 2007 DN 7