Story so far...
I have assembled, but not yet powered up a SC/Jaycar Mk 2 theremin kit.
Rather than use the small plastic box sent with the kit I have made a plywood chassis to mount the theremin in somewhat like the design of the EM theremin case. The chassis is 18" long, 6" back to front and the working depth is about 2 3/4".
I have made a hairpin loop of 10 mm diameter aluminium alloy solid bar. the parallel legs of the hairpin are 4" apart and the distance between the end of the radius and the case is about 9"
The volume antenna is mounted on the lefthand end of the case using an aluminium collar and grubscrew to set the angle to the horizontal.
I have made up a 12 VAC power supply from a 3VA mains transformer (old Radio Spare item) It has two 0 - 12 V windings that I have wired in parallel. The transformer is housed in an earthed aluminium case and fitted with a 12V filament indicator lamp. The no load output measured on the AC range of my digital multimeter is 13.5 V
The reasons that I have decided to deviate from the SC/Jaycar plans is to make a better looking device and by increasing the separation of the pitch and volume antennae reduce any interaction between the two. It also gives me room to add linearisation inductors between the circuit board and the antennae.
Looking at the EM and EW designs I see that Moog used 40 uH split into 4 separate ferrite cored inductors. From other postings on this forum I understand the reason for splitting the inductance up is to reduce the effect of the parasitic capacitance associated with the inductor. I assume that by putting the four inductor in series it has the effect of reducing the effective parasitic capacitance resulting in the small changes in the Earth to Antenna capacitance having a greater effect on the oscillator frequency.
I would like to try winding my own air cored coils. Using the formula L = 0.001 N^2 r^2 / (228r+254l) I have calculated that 110 turns of 1 mm diameter wire close wound on a 60 mm diameter former would give me an inductance of 41 uH.
Would such a coil improve the performance of the theremin?
If I were to halve the diameter of the wire, wind twice as many turns using two lengths of wire, and then remove one set of windings to leave 110 turns but with a gap between each turn and the next would this reduce the parasitic capacitance of the coil?
Bob
I have assembled, but not yet powered up a SC/Jaycar Mk 2 theremin kit.
Rather than use the small plastic box sent with the kit I have made a plywood chassis to mount the theremin in somewhat like the design of the EM theremin case. The chassis is 18" long, 6" back to front and the working depth is about 2 3/4".
I have made a hairpin loop of 10 mm diameter aluminium alloy solid bar. the parallel legs of the hairpin are 4" apart and the distance between the end of the radius and the case is about 9"
The volume antenna is mounted on the lefthand end of the case using an aluminium collar and grubscrew to set the angle to the horizontal.
I have made up a 12 VAC power supply from a 3VA mains transformer (old Radio Spare item) It has two 0 - 12 V windings that I have wired in parallel. The transformer is housed in an earthed aluminium case and fitted with a 12V filament indicator lamp. The no load output measured on the AC range of my digital multimeter is 13.5 V
The reasons that I have decided to deviate from the SC/Jaycar plans is to make a better looking device and by increasing the separation of the pitch and volume antennae reduce any interaction between the two. It also gives me room to add linearisation inductors between the circuit board and the antennae.
Looking at the EM and EW designs I see that Moog used 40 uH split into 4 separate ferrite cored inductors. From other postings on this forum I understand the reason for splitting the inductance up is to reduce the effect of the parasitic capacitance associated with the inductor. I assume that by putting the four inductor in series it has the effect of reducing the effective parasitic capacitance resulting in the small changes in the Earth to Antenna capacitance having a greater effect on the oscillator frequency.
I would like to try winding my own air cored coils. Using the formula L = 0.001 N^2 r^2 / (228r+254l) I have calculated that 110 turns of 1 mm diameter wire close wound on a 60 mm diameter former would give me an inductance of 41 uH.
Would such a coil improve the performance of the theremin?
If I were to halve the diameter of the wire, wind twice as many turns using two lengths of wire, and then remove one set of windings to leave 110 turns but with a gap between each turn and the next would this reduce the parasitic capacitance of the coil?
Bob
