We at particlecounters.org are proud to announce an attractive new portable particle counter from Lighthouse Worldwide Solutions called the Boulder Counter.  This exceptional unit is a large particle counter offering a wide range between 5.0 and 100 microns.  The Boulder Counter features a robust flow rate of 1.0 CFM and allows you to view up to 6 particle sizes simultaneously.

This uncompromising portable particle counter offers a huge amount of storage space for particle count data from 6 channels and data from up to 4 environmental sensors.  The Boulder Counter utilizes a large, color 5.7" touch screen interface that is not only easy to read, it is also simple to configure and operate.  All of your important data can be instantly and dependably downloaded to a computer or printed to the units’ built-in thermal printer.  You can use the versatile Boulder Counter as a portable particle counter or you may integrate it with a larger facility monitoring system.

The reliable Boulder Counter meets JIS Standards and its large memory for storing data has the capacity for 3,000 samples!  This quality instrument also features alphanumeric location labels and an easy to configure interface with zoom capability.  With the Boulder Counter you also get the benefits from a solid 2 year warranty and low cost of ownership.

If your application requires counting large particles accurately and dependably, check out the Boulder counter from Lighthouse Worldwide Solutions.

Each week we receive several phone calls and emails from individuals asking a variety of questions related to particle counter monitoring systems.  Many people looking for particle counter monitoring systems for their cleanroom procedures seem overwhelmed by all of the variables involved in particle counting to meet ISO Cleanroom Standards.  You have chosen your particle counter and now you need to determine the best monitoring system for your particular application.  Hopefully the questions from our customers listed below are some of the same questions you need to have answered.

What is a Facility Monitoring System?

Facility Monitoring Systems (FMS) are used to allow all of your particle counters, manifolds, sensors, samples and other assessment equipment to communicate with each other within a central monitoring system.  This process allows you to collect and analyze the particle data.  This allows you to correlate the particle counts with actions like a filter failure or an open door.  Facility Monitoring Systems are typically used in cleanrooms and associated areas.  Although a FMS cannot be used to classify an area, they perform a monitoring function to provide evidence that an area’s environmental conditions have been maintained within the required specifications.  The FDA and other regulatory agencies accept that if you’re using a Facility Monitoring System, the period of reclassification can be extended (ISO 14644-2).

How do I determine how many particle counters or monitoring locations I need?
This can be calculated by determining the square root of the square meters of the room you’re monitoring.  An example would be a room that is 25 square meters.  Square root (25) (square meters) = 5M² or 5 monitoring points.  Always round up.

How can I collect particles in one area and count them in another area?
This can be done by using a tube or duct.  You should remember that 2 things happen when a sample medium is conducted from the sampling area to the particle counter by tubing: 1) you will experience some loss of pressure; 2) some particles will adhere to the tubing.

How can I avoid particle dropout?
The rule of thumb for this is "the shorter the sampling tube, the more accurate the reading".  Ideally, if you’re using .1 CFM, don’t allow the sampling tube to be longer than 2 feet.  With 1 CFM, you can go up to 10 feet, but it is better to keep it between 3-4 feet.

Does size matter?
Particle size, yes, depending on your particular application, particle size range may be important because they may cause specific types of damage during your process.

What is the difference between Real Time particle monitoring and Sequential particle monitoring?
Using Real Time particle monitoring involves placing a single cleanroom particle counter or particle sensor at a specific location in your cleanroom.  The sensor is committed to monitor particles only at a designated location, where every event is detected and counted.  There are no gaps in the particle counting data and particles are monitored in particles per cubic foot or per cubic meter.  The Real Time system is well suited for use at critical locations where sensitive processes can be adequately monitored.  You can use a stand alone particle counter that is a dedicated counter with a built-in vacuum pump.  Another option is a remote particle counter.  This instrument has no display; a process vacuum is provided for sampling or you can use a separate pump dedicated to particle counting.

Sequential Particle Monitoring is also referred to as Pneumatically Multiplexed Particle Counting or a Manifold Monitoring System.  This system involves using a single particle counter to monitor multiple points.  This can be accomplished by adding a Sequential Manifold Sampler that connects the particle counter to different sampling tubes.  Each individual tube is sampled in sequential order; when a tube is sampled, the manifold moves to the next tube to be sampled.

During this tube change, the particle counter stops counting particles until the change is complete, then it delays to allow any air from the prior sample to be purged.  A blower continuously pulls air through all the sample tubes, avoiding any "air hammering" that may free particles in the sample tubing from the start and stop of the air flow.  The frequency of each sample is determined by the number of monitoring points.  In a typical application, each location is sampled for 60 seconds then purged for 10 seconds as the sampling arm moves to the next location.