Advantageous of HyperQ
Thanks to the high performance STM32H750
series micro controller with high sensitivity and
low noise ADC TLV320ADC5140, metal
detectors equipped with HyperQ technology
can transmit 4 essential frequencies from 7 to
80kHz to the ground, simultaneously. Key
features include:
• Higher detection frequency.
• Highly accurate results.
• Auto noise canceling by 1 click.
The V series detectors are equipped with HyperQ,
allowing them to operate with simultaneous multi-
frequency. Additionally, users have the option to
choose from specific single frequencies.
Adjusting the frequency only affects the current
Search Mode Profile, leaving other profiles
untouched.
How to Change the Frequency:
1 Select Frequency: Use the Frequency button to
cycle through the available frequencies. The
HyperQ symbol will be displayed when
HyperQ(simultaneous Multi-frequency) is selected.
Single frequencies are shown in kHz, with options
such as 5, 10, 15, 20, 40 kHz,60kHz*.
2 Noise Cancellation: Perform a Noise Cancel to
minimize interference (refer to page 25 in the
manual).
Multi-Frequency Operation (HyperQ):
HyperQ operates across the entire frequency
spectrum at once, enhancing the detection range.
It is generally recommended for its ability to detect
various targets while providing more stable and
precise target IDs.
Single Frequency Operation:
Certain situations might benefit from using a single
frequency. For example:
For detecting larger, highly conductive objects at
deep levels, 5 or 10kHz might be advantageous.
For finding fine gold jewelry at shallow depths, 40
kHz or 60 kHz* could yield better results in specific
environments, like dry sand at a beach.
However, in areas with high Electromagnetic
Interference where noise cancellation is less
effective, using a single frequency might reduce
noise. This might limit target sensitivity across a
broader range, but it could be preferable in specific
conditions.
By offering both multi-frequency and single-
frequency options, the V Series detectors provide
versatility to adapt to various detecting situations
and preferences.
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