TCSPC Time Tagger
SPC-180N SPC-180NX SPC-180NXX |
SPC-130IN SPC-130INX SPC-130INXX |
SPC-QC-104 | SPC-QC-004 | SPC-QC-008 | |
Interface | PCIe | PCIe | PCIe | PCIe | PCIe |
TCSPC Channel per Module | 1 | 3 (4) | 3 (4) | 7 (8) | |
Use for | Fluor. Decay FLIM, PLIM Phot. Correl. Sing. Molec. FCS |
Fluor. Decay NIRS Phot. Correl. Sing. Molec. FCS |
Fluor. Decay FLIM, PLIM Phot. Correl. Sing. Molec. FCS |
Fluor. Decay NIRS Phot. Correl. Sing. Molec. FCS |
Fluor. Decay NIRS Phot. Correl. Sing. Molec. FCS |
Timing Precision (Jitter, RMS) | 2.5 ps 1.6 ps 1.1 ps |
2.5 ps 1.6 ps 1.1 ps |
16 ps (typ.) | 16 ps (typ.) | 14 ps (typ.) |
Timing Precision /?2 (5) | 1.8 ps 1.1 ps 0.8 ps |
1.8 ps 1.1 ps 0.8 ps |
11 ps | 11 ps | 9.9 ps |
Min. Bin Width | 813 fs 405 fs 203 fs |
813 fs 405 fs 203 fs |
4 ps | 4 ps | 1 ps |
Abs. Timing Stability (RMS) | <0.5 ps | <5 ps | <5 ps | <5 ps | |
General Recording Modes | Classic TCSPC, FLIM, FCS, HBT (4), Time Tag |
Classic TCSPC, FCS, HBT (4), Time Tag |
Classic TCSPC, FLIM, FCS, HBT (4), Time Tag |
Classic TCSPC, FCS, HBT (4), Time Tag |
Classic TCSPC, FCS, HBT (4), Time Tag |
Detectors per Channel | Up to 16 (1) | Up to 16 (1) | Up to 16 (1) | 1 | |
Parallel Modules | Up to 4 (2) or 32 (3) | 1 | 1 | Up to 4 | |
Multi-Module Packages | SPC-182N SPC-183N SPC-184N |
SPC-132IN SPC-133IN SPC-134IN |
– | – | – |
(1) For all modules of the SPC series: up to 4 or 8 PMTs are connected using routers HRT-41 or HRT-81; for up to 8 SPADs (TTL) use HRT-82. 16 channel detection is provided by the PML-16 detector series.
(2) A single instance of SPCM software operates up to four modules. Multiple instances of SPCM can be launched to operate more than four modules or modules of different types.
(3) Using SPCM DLL with custom programming up to 32 modules can be operated in parallel.
(4) Hanbury-Brown-Twiss setup. Start-stop histogram between two detectors.
(5) The standard deviation ? and the FWHM for the channel timing are always measured between two channels. For easier comparison with other products, the presented jitter on the timing of a single channel event is then estimated as ?/?2, assuming Gaussian jitter distribution. The FWHM is treated accordingly.