Obsolete PHI units

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Obsolete PHI units

As many of you may know, RBD Instruments has been providing repair services and parts for old Physical Electronics (PHI) surface analysis systems and components for over 26 years. In fact, some of the electronic and optic units that we work on are over 45 years old!

As a result of aging electronic components in some of the very old units, or a lack of demand, we are discontinuing service on some PHI electronics and optics.

Where possible, in the list below we will offer newer alternative units as replacements.   We will also offer technical support if you want to try and repair the unit yourself. With our pricing model that has a cap on the maximum labor charge for electronics and optics it is not economically viable for us to repair these really old units. And if we were to charge the actual time that it may take to repair them, then that would not make fiscal sense for you as it may be less expensive to replace it with a newer unit.

The good news is that RBD Instruments still provides repair services and parts for most older PHI surface analysis systems and components.

Here is the list of obsolete PHI units:

Electronics:

96 V/F preamplifier (We still work on the 96A and 96B)

11-010 Electron gun control (Gray faced units, we still work on the Brown faced units)

11-055 analyzer control

11-500 Analyzer control (Gray faced units, we still work on the Brown faced units)

11-067 Ion gun control

11-069 DP scan control

18-040 10kV X-ray source high voltage control

18-080 Electron gun control

18-085 Electron gun control

18-600 Balzers Quad control

20-005 2kV ion gun control

20-095 X-ray source control

77-067 Ion gun control

PC137A Interface card

 

Optics:

04-151 10 kV X-ray source

04-300 ion gun

10-540 Manipulator

15-600 specimen stage

 

Ultra-thin flexible ceramic sheet

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In the last few years there have been some remarkable advances in the area of ultra-thin  flexible ceramic materials.

ENrG has developed a 20uM thin  flexible ceramic sheet which can be bent or rolled (within limits) without breaking. We tested some of their sheets for high voltage breakdown related to one of our products and were able to achieve over 2500 V DC in air. This is impressive considering how thin the material is.

And since the material is so thin it is practically transparent to heat as shown in this video –http://www.enrg-inc.com/demonstration-videos

This new material has applications for a wide range of new product development including ultra-high vacuum optics, electronics, solar cells and membranes.

For more information or to order an evaluation kit contact Kathy Olenick at 716-873-2939   or email at KOlenick@enrg-inc.com

Visit ENrG’s website at http://www.enrg-inc.com/

flexible-ceramic-sheet

flexible-ceramic-sheet

Troubleshooting electronics resources

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When a problem develops with your XPS or AES spectrometer and you contact RBD Instruments for assistance, we frequently hear the same question – “What could be the source of the problem?”. The troubleshooting electronics tips below may help to find out.

Most problems on XPS and AES spectrometers can be broken into two broad categories – Optics problems and electronics problems. Optics (electron optics) are parts of the system that are installed on the vacuum chamber and include things like spherical capacitive analyzers, cylindrical mirror analyzers, sputter ion guns, x-ray sources, neutralizers and so on. Electronics include units such as power supplies and controllers.

Optics can generally (but not always) easily be tested by simply measuring the resistances on the electrical feedthroughs as specified in the optic’s manual. For example, a 04-303 ion gun should have contact between pins 1 and 2 (the filament) only. All other pins should be open to each other and to ground. By open, we mean that the electrical resistance is infinite. If pin 3 were shorted to ground, we would know that the objective lens inside the ion gun has a flake that is shorting it out, and the ion gun needs to be taken apart and rebuilt. But an optic component can have correct resistances and still have a problem (such as an open contact). Sometimes a short in an optic can also cause a failure in an electronic unit.

Electronic units are the source of problems with XPS and AES spectrometers more often than optics. Most of the students who use XPS and AES spectrometers in a university environment do not have enough training or experience with electronics to really dig into the electronic circuitry, but there are still a number of simple steps that can be taken that may result in a successful repair.

First of all, make sure that all power is off to any electronic unit that you work with. Measurements of voltages should always be performed by personal who have been training to work with electronic components and (often) high voltage. Potentially lethal voltages are present in these types of systems. If you are not properly trained, do not attempt to measure voltages in electronic units.

But, as long as the power is off and the unit is unplugged, you can safely visually inspect the unit and the boards inside of the unit for obvious signs of damage. For the most part, these are indicated by discoloration of the circuit boards, melted traces, melted transistors, dried up capacitors, and burnt resistors. If you find some components that are visibly damaged, then replacing them may solve the problem. Or, there may also be additional problems and the damaged components are just a symptom.

Some things to look for include:

Heat damage to a circuit board: Discoloration of the board which indicates that a component has been running very hot.

Melted components: Transistors (the plastic type) can actually melt when overheated. This is easy to spot.

Cracked capacitors: When capacitors dry out (after say 20 years or more) they can fail. See the links below for detailed instructions on how to test a capacitor. Be careful with larger value capacitors as they can hold a charge for a long time. Just to be safe, discharge capacitors before you measure them by clipping a resistor (a few hundred to a few thousand ohms is typical) across the contacts. This is not necessary for small value low voltage capacitors.

Burnt resistors: Resistors that burn up can turn to carbon and be difficult to identify without a schematic and board layout. Measure the resistance of suspect resistors with an ohmmeter. Sometimes you need to lift one end of the resistor (desolder one end of the resistor from the board) when measuring resistors in circuit as other components that may be in parallel with the resistor can affect the reading.

Shorted diodes and transistors: You can use a DVM in the diode check mode to test diodes and transistors for shorts. See the links below for detailed instructions on how to do that.

Dullness on transistor housing: If a metal housing (cover) transistor overheats often the finish on the transistor housing may be dull as a result of overheating. You can compare the finish to other similar transistors and then use a DVM in the diode check mode to test the suspected transistor. Plastic housing transistors that have melted are readily apparent.

Below I have listed some links to troubleshooting electronics resources. If you can’t fix the problem on your older Physical electronics (PHI) electronic unit yourself after following the steps in this post, we can provide you with technical support, repair services, loaners or exchange units. Contact us for more info at https://www.rbdinstruments.com/technical-support.html

 Troubleshooting Electronics resources;

Video on how to test a diode: https://www.youtube.com/watch?v=qSDRsz5-t7I

Article on how to test a diode; http://www.allaboutcircuits.com/vol_3/chpt_3/2.html

Video on how to test a transistor: https://www.youtube.com/watch?v=_3G8t-cV1d8

Article on how to test a transistor: http://www.tpub.com/neets/book7/25h.htm

Video on how to test a capacitor: https://www.youtube.com/watch?v=TFa6JfVu3B4

Article on how to measure a capacitor: http://www.wikihow.com/Measure-Capacitance

 General troubleshooting information:

http://physicsed.buffalostate.edu/pubs/StudentIndepStudy/EURP08/Links/circuit.html

 

how-to-count-pins-on-an-IC

how-to-count-pins-on-an-IC