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Its time for a new detector topology in pulse induction.
The single coil ( AKA monocoil ) bipolar simultaneous transmit and recieve TEM metal detector has arrived.
No bucking coils / No figure 8s / No Induction balance / No bridges / no time domain multiplexing ... just a single coil of wire.
Today we put all the bits together ( not many ) and captured the special moment when the theory behind this was validated in a working circuit.
Below is the first ever photo of a true ( AFAIK ) bipolar monocoil with simulataneous TX and RX in action with the flyback ( a modest 190 volts peak - this is a prototype and we didnt want to blow it up on the first try) and RX signal.
But what is really important is the RX signal recovered from the coil - Its standard PI.
The HF AC ringing you see there is coming from the switchmode supply because after flyback the current in the monocoil has reversed .. the current has not gone to 0 as a standard PI would.
Transition time is around 700 nanoseconds for a 500 ma PP bipolar current in a 250 uH transmit coil ( it was the nearest to hand when the cct was first powered. )
Targets produce the expected response in the RX.
Obviously early days and lots more testing ...
What does this mean ? Well maybe physical balance ( bucking / IB ) systems are a thing of the past. Which means the monocoil is back and it means business
The single coil ( AKA monocoil ) bipolar simultaneous transmit and recieve TEM metal detector has arrived.
No bucking coils / No figure 8s / No Induction balance / No bridges / no time domain multiplexing ... just a single coil of wire.
Today we put all the bits together ( not many ) and captured the special moment when the theory behind this was validated in a working circuit.
Below is the first ever photo of a true ( AFAIK ) bipolar monocoil with simulataneous TX and RX in action with the flyback ( a modest 190 volts peak - this is a prototype and we didnt want to blow it up on the first try) and RX signal.
But what is really important is the RX signal recovered from the coil - Its standard PI.
The HF AC ringing you see there is coming from the switchmode supply because after flyback the current in the monocoil has reversed .. the current has not gone to 0 as a standard PI would.
Transition time is around 700 nanoseconds for a 500 ma PP bipolar current in a 250 uH transmit coil ( it was the nearest to hand when the cct was first powered. )
Targets produce the expected response in the RX.
Obviously early days and lots more testing ...
What does this mean ? Well maybe physical balance ( bucking / IB ) systems are a thing of the past. Which means the monocoil is back and it means business
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