• Vacuum seals were used this time.

• The measured resonant frequency is 230 MHz below the desired 15 GHz. But has increased 70 MHz after brazing.

• The unloaded Q factor is higher than before brazing, however the external Q is larger, making the Q factor larger than 500.

• This time the correct feedthroughs were used.

• The frequencies are higher than the pre-brazing value of ~14.990 GHz, but just below 15 GHz.
• The Q is closer to the design value, but still too high.

• The external Q is not as higher as before but still much larger than the value in simulation, ~600.

• All maximum cross couplings are below -40 dB.

Reference Cavity

• The BPM was connected to 2 ports of the VNA and S parameters were measured.

Monopole Mode

• The measured resonant frequency is 300 MHz below the desired 15 GHz.
• The feedthrough antennae were not well concentrically aligned and frequency was seen to vary on repeated repositioning of the feedthrough.
• Simulations need to be performed to see if this effect is reproduced.
• The Q values can be determined by plotting a smith chart.

• The unloaded Q factor is much smaller than expected, bringing the loaded Q down.
• This could be caused by uneven clamping or not clamping strong enough or by excessive surface roughness.
• The frequency and Q factor was seen to vary with antenna offset, so the effect of this offset needs to be investigated.

Feedthrough Offset Variation

• Simulations were performed with the feedthrough offset ±1 degrees the along the beam pipe direction.
• Corresponding to a antenna tip movement range of ± 0.26 mm within the cavity.
• Positive values correspond to offsets towards the flat surface of the cavity, negative values correspond to offsets towards the reentrant part of the cavity.

• The frequency change depending on the antenna offset is ~700MHz/mm.
• The Q factor change is not enough to explain the low loaded Q factor of the position cavity.

Dipole Mode

Position Cavity

• The BPM was clamped as above and all four ports connected to the VNA.
• A drop in frequency from 15 MHz was predicted from simulation.

• The frequencies are very close to the expected value of 14.985 GHz, the Q factors are three times larger.
• The coupling here is too weak to rely on the Q factors calculated from the Smith chart but it does offer clues to the source of the high loaded Q.

• The external Q is much higher than the design value of ~600, possibly caused by the incorrect coupler.

Position Cavity with Reference Cavity Antenna

• The position cavity was simulated with the feedthrough antenna from the reference cavity.

• In the simulation the external Q is much larger than expected, driving the loaded Q up.
• The value of the loaded Q is closer to that measured from the transmission curves.
• This is encouraging evidence that using the correct feedthroughs and vacuum seal will results in Q's close to the design values.

Cross Coupling

• All maximum cross couplings are below -30 dB.

<--
 Settings just to customise this page 
 

 Set STYLESIDEBAR = off
 
 Set ALLOWTOPICVIEW = TWikiGuest, JohnAdamsInstituteGroup
 
 Set MYTITLE = - Bench measurements of the brazed CTF3 BPM prototype
 
-->