Trade.Information

Product Name: 296 ScintiPack Photomultiplier Base with Preamp and HV Supply

Product Description

For scintillation detectors employing 10-stage PMTs that fit standard 14-pin sockets
Internal, adjustable, high-voltage bias supply eliminates high-voltage cables
Integral spectroscopy preamplifier avoids dangling boxes
Active bias network minimizes peak shifts at high counting rates
Anode timing output for coincidence measurements
Low power consumption (240 mW) for portable applicaitons
Convenient, single-cable connection for most applications

The ScintiPack Photomultiplier Base (Model 296) includes everything needed for scintillation detectors in one compact package: a low-power, adjustable, high-voltage supply, an active bias network, and a spectroscopy preamplifier. Incorporating the bias supply in the photomultiplier base eliminates high-voltage cable connections to bulky, external, HV supplies. As a result, the ScintiPack operates with extremely low power consumption (240 mW). This makes the ScintiPack attractive for portable applications, as well as for high-density detector arrays. 

Because the preamplifier output signal is bundled into the power cable, only a single cable is required between the photomultiplier base and the main amplifier locations. For example, the ORTEC MicroACE analyzer accomplishes all signal interfacing with the ScintiPack via the preamplifier power connector. The optional Signal Break-Out Adaptor can be used with amplifiers that do not offer signal interfacing through the preamplifier power plug. The adaptor attaches to the preamplifier power plug at the amplifier, and supplies the preamplifier signal on a coaxial cable for connection the front-panel input of the amplifier. This approach maintains a single-cable connection from the ScintiPack to the amplifier location.

The ScintiPack biases the cathode of the associated photomultiplier tube at ground potential, and the anode at a positive voltage. The voltage applied to the anode can be optimized within the range of +600 V to +1100 V via a 20-turn screwdriver adjustment. This provides a cost-effective means of adjusting and matching photomultiplier gains in large arrays of scintillation detectors. The dynode bias network applies 1/6 of the anode voltage between the cathode and first dynode, and 1/12 of the anode voltage between the remaining pairs of electrodes. To provide excellent gain stability at high counting rates, the voltages applied to dynodes 8, 9, and 10 are transistor regulated. Feedback regulation is also applied to the anode voltage to achieve optimum gain stability for the entire photomultiplier tube.

The signal from dynode 10 is integrated on a 500-pF capacitor at the preamplifier input, amplified by the preamplifier gain, and presented as a positive-polarity pulse at the PREAMP output. A jumper on the printed circuit board allows selection of a preamplifier gain of X1 or X6. The preamplifier output signal can be accessed on pin 3 of the power connector, or at the BNC connector on the rear panel of the ScintiPack.

The anode signal is available on a rear panel BNC connector to facilitate high resolution timing in coincidence measurements. This output is intended to drive a 50-W coaxial cable to a timing amplifier or a timing discriminator. By moving a jumper on the printed circuit board, the anode output connector can be converted to a test input for the preamplifier. A pulser can be applied to the test input to check the operation of the entire chain of electronics, starting from the preamplifier input.

Table 1. Compatible Photomultiplier Tubes.

Company Details

From its inception as a small enterprise founded by scientists and engineers from the Oak Ridge National Laboratory, our business and reputation for excellence in scientific instrumentation have grown substantially. Along with that growth came... more