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Edwards Pirani Penning 1005 Manual Woodworkers

31.08.2019 

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  1. Edwards Pirani Penning 1005 Manual Woodworkers Tools
  2. Edwards Pirani Penning 1005 Manual Woodworkers Machine
  3. Edwards Pirani Penning 1005 Manual Woodworkers Supply
Pirani probe, opened

The Pirani gauge is a robust thermal conductivity gauge used for the measurement of the pressures in vacuum systems.[1] It was invented in 1906 by Marcello Pirani.[2]

Marcello Stefano Pirani was a German physicist working for Siemens & Halske which was involved in the vacuum lamp industry. In 1905 their product was tantalum lamps which required a high vacuum environment for the filaments. The gauges that Pirani was using in the production environment were some fifty McLeod gauges, each filled with 2kg of mercury in glass tubes.[3]

Pirani was aware of the gas thermal conductivity investigations of Kundt and Warburg[4] (1875) published thirty years earlier and the work of Smoluchowski[5] (1898). In 1906 he described his 'directly indicating vacuum gauge' that used a heated wire to measure vacuum by monitoring the heat transfer from the wire by the vacuum environment.[2]

  • 3Pulsed Pirani gauge

Structure[edit]

The Pirani gauge consists of a metal sensor wire (usually gold plated tungsten or platinum) suspended in a tube which is connected to the system whose vacuum is to be measured. The connection is usually made either by a ground glass joint or a flanged metal connector, sealed with an o-ring. The sensor wire is connected to an electrical circuit from which, after calibration, a pressure reading may be taken.

Mode of operation[edit]

Block diagram of Pirani gauge
Curves to convert air readings to other gases

In order to understand the technology, consider that in a gas filled system there are four ways that a heated wire transfers heat to its surroundings.

  1. Gas conduction at high pressure EdT/dr{displaystyle Epropto dT/dr} (r representing the distance from the heated wire)
  2. Gas transport as low pressure EP(T1T0)/T0{displaystyle Epropto P(T_{1}-T_{0})/surd T_{0}}
  3. Thermal radiation E(T14T04){displaystyle Epropto (T_{1}^{4}-T_{0}^{4})}
  4. End losses through the support structures

A heated metal wire (sensor wire, or simply sensor) suspended in a gas will lose heat to the gas as its molecules collide with the wire and remove heat. If the gas pressure is reduced the number of molecules present will fall proportionately and the wire will lose heat more slowly. Measuring the heat loss is an indirect indication of pressure.

There are three possible schemes that can be done.[2]

  1. Keep the bridge voltage constant and measure the change in resistance as a function of pressure
  2. Keep the current constant and measure the change in resistance as a function of pressure
  3. Keep the temperature of the sensor wire constant and measure the voltage as a function of pressure
Edwards pirani penning 1005 manual woodworkers association

Note that keeping the temperature constant implies that the end losses(4.) and the thermal radiation loses (3.) are constant.[3]

The electrical resistance of a wire varies with its temperature, so the resistance indicates the temperature of wire. In many systems, the wire is maintained at a constant resistance R by controlling the voltage I through the wire. The resistance can be set using a bridge circuit. The voltage required to achieve this balance is therefore a measure of the vacuum.

The gauge may be used for pressures between 0.5 Torr to 1×10−4 Torr. Below 5×10−4 Torr, a Pirani gauge has only one significant digit of resolution. The thermal conductivity and heat capacity of the gas affects the readout from the meter, and therefore the apparatus may need calibrating before accurate readings are obtainable. For lower pressure measurement, the thermal conductivity of the gas becomes increasingly smaller and more difficult to measure accurately, and other instruments such as a Penning gauge or Bayard-Alpert gauge are used instead.

Pulsed Pirani gauge[edit]

A special form of the Pirani gauge is the pulsed Pirani vacuum gauge where the sensor wire is not operated at a constant temperature, but is cyclically heated up to a certain temperature threshold by an increasing voltage ramp. When the threshold is reached, the heating voltage is switched off and the sensor cools down again. The required heat-up time is used as a measure of pressure.

For adequately low pressure the following relation for supplied heating power and sensor temperature T(t) applies:[6]

Pel=C1λgas(T(t)Ta)+C2λfil(T(t)Ta)+Afilϵσ(T(t)4Ta4)+cfilmfildTdt,{displaystyle P_{text{el}}=C_{1}lambda _{text{gas}}(T(t)-T_{a})+C_{2}lambda _{text{fil}}(T(t)-T_{a})+A_{text{fil}}epsilon sigma (T(t)^{4}-T_{a}^{4})+c_{text{fil}}m_{text{fil}}{frac {mathrm {d} T}{mathrm {d} t}},}

where cfil{displaystyle c_{text{fil}}} is the heating capacity of the sensor wire, mfil{displaystyle m_{text{fil}}} is the mass of the sensor wire and C1{displaystyle C_{1}} and C2{displaystyle C_{2}} are constants.

Advantages and disadvantages of the pulsed gauge[edit]

Advantages
  • Significantly better resolution in the range above 75 Torr.[7]
  • The power consumption is drastically reduced compared to continuously operated Pirani gauges.
  • The gauge's thermal influence on the real measurement is lowered considerably due to the low temperature threshold of 80 °C and the ramp heating in pulsed mode.
  • The pulsed mode can be efficiently implemented using modern microprocessors.
Disadvantages
  • Increased calibration effort
  • Longer heat-up phase

Alternative[edit]

An alternative to the Pirani gauge is the thermocouple gauge, which works on the same principle of detecting thermal conductivity of the gas by a change in temperature. In the thermocouple gauge, the temperature is sensed by a thermocouple rather than by the change in resistance of the heated wire.

References[edit]

  1. ^Ellett, A. 'Phys. Rev. 37 (1931): A. Ellett and R. M. Zabel - The Pirani Gauge for the Measurement of Small Changes of Pressure'. Physical Review. 37: 1102–1111. doi:10.1103/PhysRev.37.1102.
  2. ^ abcvon Pirani, M (1906). Deutsche Physikalische Gesellschaft, Verh. 8: 24.Missing or empty title= (help)
  3. ^ abBorichevsky (2017). Understanding Modern Vacuum Technology. p. 62. ISBN9781974554461.
  4. ^Kundt and Warburg (1875). Poppand Ann D Phys. 156: 177.Missing or empty title= (help)
  5. ^Smoluchowski (1898). Wiedem Ann D Phys. 64: 101.Missing or empty title= (help)
  6. ^DE 10115715, Plöchinger, Heinz, 'Sensor and Method for Detecting Measurement Variables and Physical Parameters', published 2001-03-30, issued 2002-10-17, also description
  7. ^Jitschin, W.; Ludwig, S. (2004). 'Gepulstes Heißdraht-Vakuummeter mit Pirani-Sensor'. Vakuum in Forschung und Praxis (in German). 16: 23–29. doi:10.1002/vipr.200400015.

External links[edit]

  • Jitschin, W. (2006), '100 Jahre Pirani-Vakuummeter', Vakuum in Forschung und Praxis (in German), 18 (6): 22–23, doi:10.1002/vipr.200690070
  • Jitschin, W.; Ludwig, S. (2004), 'Gepulstes Pirani-Vakuummeter: Berechnung von Aufheizung und Abkühlung', Vakuum in Forschung und Praxis (in German), 16: 297–301, doi:10.1002/vipr.200400235

Edwards Pirani Penning 1005 Manual Woodworkers Tools

Retrieved from 'https://en.wikipedia.org/w/index.php?title=Pirani_gauge&oldid=912463543'
8. Remove control box cover, detach display card and back off four
screws from top of contactor and two ground lugs on side of enclosure.
9. Take the jumper cable with 3 conductor strip, and slide it through the
input side of the EMS control box Then connect black above little black
wires, white above little white wires and green to ground screw0and
11. The cable that came from the transfer switch connects to the out
ut
in the same manner except the round sensing coil slides over the black
wire. Make sure that the conductor’s colors match up across from each
12. Connect the loose end of the jumper cable to the transfer switch. See
13. Double check all connections and make sure they are secure.
14. Secure cable ends by tightening down strain relief’s over outer
jacket. Do not over tighten this could bite through insulation and cause a
15. Set time delay jumper on the circuit board. Factory set is for 15
seconds remove jumper to set for 136 seconds. See features section on
16. Re-attach display card with display facing you and digits reading
17. Attach EMS lid with the six black machine screws provided, and
18. Mount both the control box and remote panel in desired location.
19. Installation is complete. Next, Plug in and follow operation
Q
Models: EMS-HW30C
1. Unplug RV from the source and be sure generator is off.
3. Cut the RV power cord about 6 inches greater than the distance from
junction box to the desired location of the EMS control box. Then strip

Edwards Pirani Penning 1005 Manual Woodworkers Machine

back the outer insulation 3 inches on both the input and output cable.
4. Strip back each conductor 3/8 inch on both striped ends, and attach ring
5. Remove control box cover. Grasp display circuit board with one hand
and black connector holding it in place and pull out display. Next, back off
the four setscrews from top of contactor and two groundnuts located on
6. Take your long cable with the plug end and connect it to the input side,
y sliding through the input side then connect black above little black
wires, white wire above little white wires, and green to ground nut. Torque
7. The short cable coming from the junction box connects to the output in
the same manner except the round sensing coil slides over the black wire.
Make sure that the conductor’s colors match up across from each other.
8. Double check all connections and make sure they are secure.

Edwards Pirani Penning 1005 Manual Woodworkers Supply

9. Secure cable end by tightening down strain relief’s over outer jacket. Do
not over tighten this could bite through insulation and cause a short.
10. Set time delay jumper on the circuit board. Factory set is for 15
seconds remove jumper to set for 136 seconds. See features section on time
11. Reconnect Display card, with display facing you, and upright.
11. Attach lid with the six black machine screws provided.
13. Installation is complete. Next Plug in and follow operation instructions.
1. Unplug RV from the source and be sure generator is off.
2. Locate transfer switch box, and determine location of EMS control box.
3. Measure the distance between the transfer switch and the control box
and add 1 foot this is the length of cable that will be required for the
installation. Make sure 10 gauge 3-conductor cables are used.
4. Remove lid from transfer box and remove the output cable.
5. Take jumper cable and strip back one end 3 inches, and the other end the
6. Cut back end removed from transfer box so that each conductor is 3
7. Strip back all conductors 3/8 inches, and attach ring terminals to green