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XRC 049

Defined charge distribution for SMPS measurements by means of X-ray ionization

Description

The XRC 049 is a neutralizer on the basis of X-ray ionization. It can be used the same way as the Kr-85-370 (for example in SMPS systems), i.e. when the measurement task requires a reliable and defined charge distribution of the aerosol. The XRC 049 is especially suitable for mobile measurements performed at different locations, as there are no official requirements for the transport that need to be considered in most countries. The XRC 049 is a bipolar neutralizer generating positive and negative ions through ionization. If these ions are brought together with an aerosol, a defined equilibrium charge distribution is set, as it is necessary for measuring systems such as a scanning mobility particle sizer (e.g. Palas®U-SMPS*). Compared to an unipolar neutralization, a bipolar neutralization has a significant advantage: regardless of the initial state of charge of the particles, a reproducible equilibrium charge distribution is always set. This is why a bipolar neutralization is mandatory for a traceable calibration of a condensation particle counter (e.g. ISO/CD 27891). The XRC 049 can be integrated into the U-SMPS / DEMC control unit (figure 3). The full performance is immediately available after switching on the device, after switching off no ionization takes place and therefore no further radiation.

Function The soft X-rays ionize the carrier gas. As a first result of the ionization process, positively charged gas ions and free electrons are generated. Neutral gas molecules with a strong electron affinity (e.g. O2) collect the free electrons to build negatively charged ions. When, at this point, aerosol particles are exposed to this mixture of ions during a determined period of time, the charge level of the aerosol particles is set at a defined equilibrium charge distribution.

Additional information

Benefits

<br> <span style="color:#008b57">•</span>    Reliable method for setting defined bipolar charge distributions
<br> <span style="color:#008b57">•</span>    Powerful alternative to radioactive neutralizers
<br> <span style="color:#008b57">•</span>    Flexibility in operation, no additional operating licence required**
<br> <span style="color:#008b57">•</span>    Can be integrated into U-SMPS / DEMC control unit
<br> <span style="color:#008b57">•</span>    After switching on full performance available, after switching off
no further ionization
<br> <span style="color:#008b57">•</span>    Suitable for concentrations up to 107 particles/cm3
<br> <span style="color:#008b57">•</span>    Reduces your operating costs!
** Regulations and requirements can vary depending on the state/country

Applications

<br> <span style="color:#008b57">•</span>    Neutralization for SMPS systems
<br> <span style="color:#008b57">•</span>    Neutralization for filter test systems
<br> <span style="color:#008b57">•</span>    Neutralization for diverse measuring tasks and to avoid particle
losses due to electrostatic deposition
<br> <span style="color:#008b57">•</span>    Aerosol research
<br> <span style="color:#008b57">•</span>    Laboratory and field measurements

Volume flow

up to 5 l/min

Power supply

115 – 230 V, 50 – 60 Hz

Housing

Aluminium

Maximum particle number concentration

107 particles/cm3

Carrier/dispersion gas

Air, nitrogen

Aerosol outlet connection

Øoutside = 8 mm, Øinside = 6 mm

Special features

requires no certification in most countries

Activity of the radiator

4.9 keV

Type of radiation

γ radiation

Operation principle

Ionisation with X-rays

Mains fuse

F5A, 250 V

Aerosol inlet connection

Øoutside = 8 mm, Øinside = 6 mm