The most common electronic equipment used is cell phones. With
advancement in communication technology, the requirement of cell phones
has increased manifold. A cell phone typically transmits and receives
signals in the frequency range of 0.9 to 3GHz. This article provides a
simple circuit to detect the presence of an activated cell phone by
detecting these signals.
Basic Principle of Mobile Phone Detector Circuit:
The basic principle behind this circuit
is the idea of using a Schottky diode to detect the cell phone signal.
Mobile phone signal is in the frequency range of 0.9 to 3GHZ. Schottky
diodes have a unique property of being able to rectify low frequency
signals, with low noise rate. When an inductor is placed near the RF
signal source, it receives the signal through mutual induction. This
signal is rectified by the Schottky diode. This low power signal can be
amplified and used to power any indicator like an LED in this case.
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Circuit Diagram of Cell Phone Detector:
Circuit Components:
- V1 = 12V
- L1 = 10uH
- R1 = 100Ohms
- C1 = 100nF
- R2 = 100K
- R3 = 3K
- Q1 = BC547
- R4 = 200 Ohms
- R5 = 100 Ohms
- IC1= LM339
- R6 = 10 Ohms
- LED = Blue LED
Cell Phone Detector Circuit Design:
Detector Circuit Design:
The detector circuit consists of an
inductor, diode, a capacitor and a resistor. Here an inductor value of
10uH is chosen. A Schottky diode BAT54 is chosen as the detector diode,
which can rectify low frequency AC signal. The filter capacitor chosen
in a 100nF ceramic capacitor, used to filter out AC ripples. A load
resistor of 100 Ohms is used.
Amplifier Circuit Design:
Here a simple BJT BC547 is used in
common emitter mode. Since the output signal is of low value, the
emitter resistor is not required in this case. The collector resistor
value is determined by the value of battery voltage, collector emitter
voltage and collector current. Now the battery voltage is chosen to be
12 V (since maximum open source collector emitter voltage for BC 547 is
45V), operating point collector emitter voltage is 5 V and collector
current is 2 mA. This gives a collector resistor of approx 3 K. Thus a 3
K resistor is used as Rc. The input resistor is used to provide bias to
the transistor and should be of larger value, so as to prevent the flow
of maximum current. Here we chose a resistor value of 100 K.
Comparator circuit Design:
Here LM339 is used as comparator. The
reference voltage is set at the inverting terminal using a potential
divider arrangement. Since output voltage from the amplifier is quite
low, the reference voltage is set low of the order of 4V. This is
achieved by selecting a resistor of 200 Ohms and a potentiometer of 330
Ohms. An output resistor of value 10 Ohms is used as a current limiting
resistor.
Mobile Phone Tracking Circuit Operation:
In normal condition, when there is no RF
signal, the voltage across the diode will be negligible. Even though
this voltage is amplified by the transistor amplifier, yet the output
voltage is less than the reference voltage, which is applied to the
inverting terminal of the comparator. Since the voltage at non inverting
terminal of the OPAMP is less than the voltage at the inverting
terminal, the output of the OPAMP is low logic signal.
Now when a mobile phone is present near
the signal, a voltage is induced in the choke and the signal is
demodulated by the diode. This input voltage is amplified by the common
emitter transistor. The output voltage is such that it is more than the
reference output voltage. The output of the OPAMP is thus a logic high
signal and the LED starts glowing, to indicate the presence of a mobile
phone. The circuit has to be placed centimeters away from the object to
be detected.
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Theory Behind Cell Phone Tracking System:
Mobile Phone Signal Detection using Schottky Diode:
The signal from mobile phone is a RF
signal. When a mobile phone is present near the circuit, the RF signal
from the mobile induces a voltage in the inductor via mutual induction.
This AC signal of high frequency of the order of GHz is rectified by the
Schottky diode. The output signal is filtered by the capacitor.
Schottky diodes are special diodes formed by combining N type
semiconductor material with a metal and are typically low noise diodes,
operating at a high frequency. These diodes have a unique property of
conducting at a very low forward voltage between 0.15 to 0.45V. This
enables the diode to provide high switching speed and better system
efficiency. The low noise is due to the very low reverse recovery time
of about 100 per sec.
Signal Amplifier using BJT:
BJT or bipolar junction transistor in
its common emitter form is the most common amplifier used. A transistor
amplifier works on the fact that the input base current is amplified to
the output collector current by a factor of β. Here the emitter is the
common terminal. The circuit is biased using a voltage divider circuit
formed by combination of two resistors. When a transistor is biased in
active region, i.e. the emitter base junction is forward biased and the
collector base junction is reverse biased, a small base current results
in a larger collector current.
LM339 as Comparator:
LM339 is a comparator IC containing 4
comparators. Here we are using only one comparator. When the voltage at
non inverting (+) terminal is higher than the voltage at inverting
terminal, the output voltage goes high. When the voltage at inverting
terminal is higher, the output voltage goes low.
Cell Phone Detector Circuit Applications:
- This circuit can be used at examination halls, meetings to detect presence of mobile phones and prevent the use of cell phones.
- It can be used for detecting mobile phones used for spying and unauthorized transmission of audio and video.
- It can be used to detect stolen mobile phones.
Limitations of Mobile Phone Detector Circuit:
- It is a low range detector, of the order of centimetres.
- The Schottky diode with higher barrier height is less sensitive to small signals.
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