The from Princeton Instruments is the ultimate scientific, intensified CCD camera (ICCD) system, featuring a 1k x 1k interline CCD fiberoptically coupled to Gen III filmless intensifiers. These intensifiers provide the highest possible sensitivity in the visible and NIR wavelengths. The integrated RF modulation capability of 1 MHz - 200 MHz makes this fiberoptically-coupled ICCD camera ideal for RF modulation FLIM experiments. Princeton Instruments integrated programmable timing generator, SuperSynchro, is built into the camera, making it the perfect choice for time-resolved imaging applications, while the special Dual Image Feature (DIF) allows two images to be captured in rapid succession, ideal for Particle Image Velocimetry (PIV) applications. is the only ICCD camera in the world that allows frequency domain and time domain imaging with megapixel resolution and 16 bit digitization. FEATURES BENEFITS 1024 x 1024 imaging array High resolution imaging 32 MHz* / 16-bit digitization Video frame rates and higher to efficiently synchronize with high repetition rate lasers Thermoelectric cooling Reduces CCD dark current to negligible levels Gen III filmless intensifiers Best sensitivity and gate speed in the desired wavelength range Fiberoptic coupling Highest optical throughput; No vignetting RF Modulation Built-in, fully software-programmable frequency, phase and amplitude options allow full control for intensifier gain modulated, high resolution imaging Super HV - Built-in high voltage pulser SuperSynchro - Built-in programmable timing generator SyncMaster I and II Dual Image Feature (DIF) GigE interface LightField for 64-bit Windows 7, or WinSpec for 32-bit Windows PICAM (64-bit)/PVCAM (32-bit) software development kits (SDKs) LabVIEW Scientific Imaging Tool Kit (SITK ) Powered by LightField PI-MAX 4: 1024i-RF Rugged design without a bulky external controller, for high repetition rate gating and minimal insertion delay Built-in, fully software-controlled gate timing; Controls gate widths and delays in linear, or exponential increments; Low insertion delay (< 27 ns). See page 3 for more info. Provides continuous TTL signals to control external instruments such as a laser; Eliminates need for external timing generater in most experiments Allows the rapid succession capture of two images with interframe time of < 500 ns Industry standard for fast data transfer over long distances, up to 50 M Flexible software packages for data acquisition, display and analysis; LightField offers intuitive, cutting edge user interface, IntelliCal and more Compatible with Windows 7 (PICAM only)/xp, Vista and Linux; Universal programming interfaces for easy custom programming Pre-defined LabView vis provide easy integration of camera into complex experiment setup * With dual port readout at 16MHz/port Detector shown with a C-mount nose and lens, sold separately Applications: Fluorescence Lifetime Imaging Microscopy (FLIM), Time Resolved Imaging & Spectroscopy, Combustion, Planar Laser Induced Fluorescence (PLIF), Particle Imaging Velocimetry (PIV). Page 1 of 8 Rev. N1
CCD Resolution limit Equivalent Background Illumination (EBI) Photo e-/pixel/sec @ room temp (with photocathode cooling) Phosphor Operating environment Storage environment Certification IMAGING GROUP 57 to 64 lp/mm 0.02 (0.002) P43 and P46 +5 C to +30 C non-condensing -25 C to +55 C CE SPECIFICATIONS Image sensor Kodak KAI-1003 scientific grade interline CCD CCD format 1024 x 1024 imaging pixels; 12.8 x 12.8 μm pixels; 13.1 x 13.1 (18.5 mm diagonal) System read noise (typical) @ 4 MHz digitization @ 16 MHz digitization @ 32 MHz digitization 16 e- rms 40 e- rms 70 e- rms Pixel full well 130 ke- Dark current @ -25 C (typical) < 2 e-/p/sec CCD temperature @ + 23 C room temperature @ + 20 C ambient -20 C (Air), -30 C (Liquid assist), Guaranteed -25 C (Air), -35 C (Liquid assist) Vertical shift rate 2.5 μs/row (variable via software) DIF mode interframe time 450 ns (min); P46 phosphor decay time - 500ns (to 10%), 2 μsec (to 1%) INTENSIFIER Intensifiers available 18 mm - Gen III filmless Method of coupling to the CCD 1:1 fiber optic Intensifier type HBf and HRf Wavelength range See QE curve, pg. 5 Min. Gate Width (Optical FWHM) * ~ 2 ns (typical), 3 ns (guaranteed) Repetition rate: Sustained 1 MHz * Measured with 18 mm intensifier. Contact your local sales representative for more information. All specifications subject to change. FRAME RATES Binning 1024 x 1024 512 x 512 256 x 256 1 x 1 26 48 85 2 x 2 56 90 140 4 x 4 95 142 199 NOTE: Frames per second at 32MHz Page 2 of 8 Rev. N1
SuperSynchro Timing Generator The PI-MAX4 s integrated SuperSynchro Timing Generator lets researchers set gate pulse widths and delays under GUI software control. The closed coupled SuperSynchro significantly reduces the system delay inherent in the timing generator of ICCD cameras. The integrated timing generator means there is no need for an additional external timing generator, and a built-in Super HV high voltage pulser eliminates the requirement for an external highvoltage supply, making the PI-MAX4 camera one of the most advanced ICCD cameras on the market. FEATURES BENEFITS Closed coupled design Short signal paths for minimum insertion delays On-board memory Internal oscillator* SyncMaster pulses Configurable trigger inputs Full software control Store and execute complex gate width/delay sequences with no software overhead Drive an external event and initiate repetitive experiments. Independent continuous TTL outputs to trigger pulsed external devices, e.g. laser and Q-switch; Minimum experiment jitter Synchronizes camera to a wide variety of standard and non-standard trigger sources. Easy setup and execution of complex gate width/delay sequences Internal timing generator 0.05 Hz - 1 MHz Gate delay + Width range* ~0.01 ns to 21 sec (from T0) Timing resolution/ Timing jitter 10 ps / 35 ps rms Insertion delay < 27 ns (trigger in to intensifier opening) TRIGGER INPUTS External sync (Trigger In) Pre Trigger In TRIGGER OUTPUTS SyncMaster 1 SyncMaster 2 T0 Monitor Ready Aux SuperSynchro Specifications -5 v to +5 v (including TTL); AC/DC coupling: 50 ohm / High Z Variable Threshold; +ve or -ve edge TTL input. A rising edge will stop CCD Cleans and set camera to wait for the external trigger for fastest response. User selectable option. Programmable continuous frequency output to synchronize external devices with PI-MAX3, e.g. Laser Programmable continuous frequency output (delay from SyncMaster 1 : 100 ns - 6.55 msec) synchronize external devices with PI-MAX4, e.g. Q-switch TTL Signal: T0 indicates start of timing sequence TTL signal to monitor actual gate timing TTL signal. Represents camera status. It changes state when ready just before the exposure. DC coupled programmable delay (Delay from T0-0.01ns - 1 sec) trigger output to synchronize external devices with PI-MAX4 Logic Software programmable: Select one of the following signals: Acquiring, Image Shift, Logic 1, Readout, Shutter or Wait for trigger. See users manual for detailed signal descriptions. * Software programmable Page 3 of 8 Rev. N1
RF Modulation The lets the researcher perform frequency domain measurements of fluorescence lifetime study with a minimum of external equipment. By modulating the gain of the Gen III filmless intensifier at a Radio Frequency (RF) rate, the camera operates as a 2D lock-in amplifier. Each pixel acts as an individual phase sensitive (lock-in) detector. The is used in advanced imaging techniques such as FLIM, FRET, etc.. The camera has two independent built-in direct digital synthesizers. One generates the RF to modulate the intensifier, while the other provides a user controlled RF signal that can be used to modulate the illumination to accomplish the RF phase sensitive detection. The RF amplifier which drives the intensifier is built into the camera. The LightField advanced GUI lets the researcher select frequency, control phase sweep range and granularity, and set the user RF output p-p voltage levels. The built-in RF modulator allows control over all the intensifier gain control parameters for precise measurements. The integrated frequency generator means there is no need for an additional external expensive frequency generator, and a built-in Super-HV high voltage power supply / pulser eliminates the requirements for an external high-voltage supply, making the camera one of the most advanced ICCD camera in the world. FEATURE Closed coupled design On-board memory Internal oscillator* SyncMaster pulses RF frequency output Configurable trigger inputs Full software control BENEFITS Short signal paths for minimum insertion delays Store and execute complex gate width/delay sequences or RF sequences with no software overhead Drive an external event and initiate repetitive experiments Independent continuous TTL outputs to trigger pulsed external devices, e.g. laser and Q-switch; Minimum experiment jitter Programmable continuous frequency output to excite external light modulator Synchronizes camera to a wide variety of standard and non-standard trigger sources Easy setup and execution of complex sequences Modulation Frequency Phase Modulation User RF Output voltage OUTPUTS User RF OUT MON RF OUT RF Modulator Specifications 1 MHz - 200 MHz in 1 MHz increment Static phase: 0 359 in 1 increments; Programmed sweeps (can cover > 360 degrees) 0.1 1.6 Vp-p in 0.01 v increments Programmable continuous frequency output to synchronize external devices with PI-MAX4 An approximate indicator of the RF applied to the photocathode. * Software programmable Page 4 of 8 Rev. N1
Quantum Efficiency Curve 60 55 Gen III Intensifiers 50 45 Quantum Efficiency (%) 40 35 30 25 20 15 10 5 0 100 200 300 400 500 600 700 800 900 1000 Wavelength (nm) HBf HRf Page 5 of 8 Rev. N1
Drawing 4.50 114.3 0.724 18.39 0.395 10.03 INTENSIFIER DEPENDANT 8.85±0.03 224.7±0.8 1.26 32.0 With C Mount CATHODE COOLING INPUT 1.00"-32 THREAD ("C" MOUNT STANDARD) SEE NOTE 2. REMOVABLE EXTENDER BRACKET 2.00 50.8 6.72 170.6 1.94 49.3 3.50 88.9 2.00 50.8 MOUNTING FACE SEE NOTE 2. AIR EXHAUST VENTS 50.0 19.3mm 0.52 M6x1.0 6.5mm 2.80 71.1 1.97 1.00 25.4 2X 0.129 3.26 [6.4] 0.20 5.1 225.0 9.00 NOTES: 1. ALL DIMENSIONS IN INCHES [ MM ] 2. MOUNTING FACE TO IMAGE PLANE IS FACTORY PRESET TO OPTICAL DISTANCE OF 0.690 0.010 [17.53 ]. Page 6 of 8 Rev. N1
Drawing 3X 0.20[5.2] RADIAL SLOT ON 3.60 BOLT CIRCLE SEE NOTE 3. 4.50 114.3 0.928 23.57 0.599 15.21 INTENSIFIER DEPENDANT With Spectrometer Mount 8.85±0.03 224.7±0.8 1.26 32.0 0.15 3.8 0.06 1.5 19.3mm 0.52 M6x1.0 6.5mm 2.00 50.00 50.8 71.1 1.969 MOUNTING FACE SEE NOTE 2. 1.000 25.40 AIR EXHAUST VENTS 2.80 6.72 170.6 1.94 49.3 4.250 107.95 2.600 66.04 CATHODE COOLING INPUT 3X #10-32 THREAD ON 3.88 BOLT CIRCLE SEE NOTE 3. REMOVEABLE EXTENDER BRACKET 2X 0.129 3.26 NOTES: 1. ALL DIMENSIONS IN INCHES [ MM ] [6.4] 0.20 5.1 225.0 9.00 2. MOUNTING FACE TO IMAGE PLANE IS FACTORY PRESET TO OPTICAL DISTANCE OF 0.894 0.010 [22.71 ]. 3. MOUNTING FLANGE ORIENTATION CAN BE ROTATED IN 180 INCREMENTS. Page 7 of 8 Rev. N1
Drawing 1.865 47.38 1.536 39.02 INTENSIFIER DEPENDANT With F Mount 4.50 114.3 8.85±0.03 224.7±0.8 1.26 32.0 CATHODE COOLING INPUT NIKON "F" MOUNT ADAPTER SEE NOTES 2 AND 3. REMOVABLE EXTENDER BRACKET 2.00 50.8 6.72 170.6 1.94 49.3 3.50 88.9 2.30 58.4 MOUNTING FACE SEE NOTE 2. AIR EXHAUST VENTS 50.0mm 25.4 1.00 19.3mm 0.52 M6x1.0 6.5mm 2.80 71.1 2X 0.129 3.26 [6.4] 0.20 5.1 225.0 9.00 NOTES: 1. ALL DIMENSIONS IN INCHES [ MM ] 2. MOUNTING FACE TO IMAGE PLANE IS FACTORY PRESET TO OPTICAL DISTANCE OF 1.831 0.010 [46.50 ]. 3. LENS RELEASE TRIGGER ORIENTATION CAN BE ROTATED IN 180 INCREMENTS. www.princetoninstruments.com info@princetoninstruments.com TOLL-FREE +1.877.474.2286 PHONE +1 609.587.9797 Visit the Princeton Instruments website to find a dealer in your area. Page 8 of 8 Rev. N1