Considerations for building your own holder, Flow cell, Considerations for building your own holder -13 – INFICON RQCM - Quartz Crystal Microbalance Research System User Manual

RQCM – RESEARCH QUARTZ CRYSTAL MICROBALANCE

CRYSTALS, HOLDERS AND FLOW CELL

4-13

o

Remove the crystal to expose the crystal cavity.

o

Remove both Pogo® contact pins from their sockets. Use a pair of tweezers (or

gloved fingernail), grab the Pogo® head firmly and pull it straight out of its

socket.

o

Rinse the holder, the crystal cavity and the Pogo® sockets generously with

deionized water to remove all traces of chemicals and thoroughly blow-dry the

whole holder using filtered air. Ensure all liquids that may have been trapped

inside the sockets are removed.

o

Generously rinse the Pogo® contact pins with deionized water, occasionally

squeeze the pins to push out any liquids that may have been trapped inside the

pins. Thoroughly blow-dry the pins using filtered air.

o

Install the Pogo® pins back into their sockets. Use the tip of a pair of tweezers

and push down on each Pogo® pins to verify their deflection.

4.3.3

CONSIDERATIONS FOR BUILDING YOUR OWN HOLDER

You MUST consider the following aspects when building your own crystal holder.
The holder must be designed so that when a crystal is installed, the its front electrode (sensing

electrode) is connected to the housing (shell) of the SMB Crystal Connector on the RQCM (see

Section 3.3.5); and the rear electrode is connected to the center pin of the SMB Crystal

Connector.
The crystal should be clamped, as close as possible, to the edge of the crystal to avoid damping of

the crystal’s oscillations.
The holder clamping mechanism should have a positive stop to avoid excessive clamping force

on the crystal.
If the crystal is to be used in a conductive fluid or conductive gas, the rear electrode must be

sealed from the conductive environment to avoid an electrical short between the electrodes. The

electrodes should be designed so the rear electrode and the electrodes contacts can be sealed.

Only the front electrode should be exposed.
The connecting cable must be coaxial all the way, from SMB on the RQCM, on up to the crystal.

The shield of the coaxial must connect to the front electrode and the center conductor must

connect to the rear electrode of the crystal. In addition, the coaxial cable must be free of kinks,

knots, etc. to avoid unbalanced capacitance in the cable. Note that a one-foot of well balance

RG174A/U coaxial cable has approximately 29 picofarads.
The total capacitance of the crystal, the crystal holder and the cable must be within the RQCM’s

capacitance compensation limits (between 40 and 200 pfd).

4.4 FLOW

CELL

The FC-550 Flow Cell is designed to be used with any of INFICON's 100 series crystal holders.

The FC-550 is made from Kynar®. The cell has two stainless steel inlet and outlet tubes with a

.047” I.D. x .062” O.D., compatible with 0.062” I.D. tubing. A Viton® O-ring provides sealing

between the cell and the face of the sensor crystal. The cell is used in place of the Crystal

Retainer Ring. Once installed in a probe, it creates a flow chamber of approximately 0.1 mL.