Der hier angebotene SCA Modell 2030 von Canberra ist ein Modul, welches entsprechend dem NIM Standard, wie er in DOE/ER-457T definiert ist, gefertigt wurde.
Das Modul belegt im separat gelisteten 19" NIM Bin 4001C (solange verfügbar) einen Steckplatz.

Ein Datenblatt zu diesem Artikel finden Sie hier.

English translation of German description:
The Canberra SCA model 2030 offered here is a module manufactured to NIM standard as defined in DOE/ER-457T. The module needs 1 slot width in the NIM Bin 4001C which is listed separately if available.

The Canberra Model 2030 analyzes the peak amplitude of energy pulses from nuclear pulse shaping amplifiers, and generates its primary logic output (SCA) for input analog pulses between the levels referenced by the Lower Level (E) and Window (delta E) front panel ten-turn controls. Auxiliary outputs from the Lower Level Discriminator (LLD) as set by (E), and the Upper Level Discriminator (ULD) as set by (E + delta E) are also provided. Timing of these logic outputs is set as the trailing edge of the input signal crosses the (E) reference.
The several outputs may be used together or individually to assist in a wide variety of applications from simple noise removal to extraction of a narrow energy range from a wide spectrum of signals for energy analysis. The sharp, precise threshold discrimination levels are exceptionally stable. The dc coupled input allows excellent baseline stability limited only by the shaping amplifier’s restorer. These significant features permit excellent amplitude discrimination, even in high count rate spectra.
The Lower Level (E) threshold is calibrated by reference to the regulated NIM supply voltages, and is usable over the range from +0.001 V dc to +10.0 V dc. Linearity of control is limited only by the specified ±0.25% maximum nonlinearity of the front panel potentiometer. A front panel mounted LED is useful in visually monitoring the setting of the Lower Level (E) reference just above the shaping amplifier’s noise level (the LED will fade off).
The Window (?E) threshold is also calibrated by reference to the regulated NIM supply voltages, and is usable over the range from the Lower Level (E) setting to +10.0 V dc. A front panel ?E Range switch allows use of a 1.0 V full scale range for very fine adjustments of the desired window.
An external lower level discriminator (LLD) input on the rear panel may be used in place of the front panel control for applications requiring a ratioed or sweeping baseline reference over the energy range. This input requires a positive polarity reference voltage, and is linear over the full scale of 0 to +10.0 V dc. A locking toggle switch is used to select this input.
All output logic signals are positive logic, and are adjustable in peak amplitude for compatibility with interfacing instruments. All outputs are source matched with 50 ? series resistive terminations to prevent ringing due to reflections on unterminated cables, and the resulting multiple counting frequently experienced. The instrument is shipped
with a socketed resistor which limits the output to +5 V nominal (open circuit) for direct interface with common TTL circuitry. The resistor (1 for each output) can be removed to obtain a +8 V nominal open circuit voltage for instruments requiring the NIM pulse level, or +4 V nominal into the 50 Ohms load termination which some other instruments provide. This flexibility adapts the output signal to various needs without risking the problem encountered with improperly driven cables. Load end terminations are not necessary. Careful attention has been paid to minimize reflections of the fast logic pulses back to the analog input. Thus all logic outputs are isolated from chassis to prevent circulating pulse currents in the instrument bin.

  • Signal input - accepts +0.01 to +10.0 VDC , unipolar or bipolar (positive lobe leading) pulses from shaping amplifier.
  • Shaping time constant range 0.1 to 20 µs; front and rear panel BNC connectors
  • External levelled reference - accepts 0 to +10.0 VDC
  • Z = 1kOhm
  • Rear panel BNC
  • Outputs: SCA - positive logic +5 V nominal pulse amplitude, adjustable to +8 V nominal pulse by removing socketed resistor
  • Z = 50 Ohms
  • Pulse width 0.5 µs, nominal
  • Rise time and fall time <25 ns
  • Front and rear panel BNCs
  • ULD and LLD same as SCA output, rear panel BNC's

Please find a corresponding data sheet here.

Canberra 2030

Maße/ Dimensions : 34mm (B/W) x 220mm (H/H) x 270mm (T/D)
Gewicht/ Weight: 0,7 kg

Ab Stapel / As is:   189,21 INKLUSIV MWST / 159,00 NETTO (appr. US$ .-)

Ref. #: 0163765877 Canberra 2030
© by Helmut Singer Elektronik Vertriebs GmbH