FM phone BUG with SA615
Many cordless phones are still analogue and use the frequency from 30-50MHz. The signal is FM-modulated and can easily be picked up with any FM receiver. An FM receiver that can be adjusted within this frequency range is presented. The cordless phones can have a different number of channels. In the oldest type, there is a single crystal (one channel). The multi-channel phones use a synthesizer chip to set a frequency that is not occupied. The receiver presented is not crystal-controlled. The receiving frequency is set manually by a potentiometer. This way, any signal within the frequency range can be easily found.
Six-channel systems are pre-1984 and are all but obsolete. They differ from the other systems in that they use a radio spectrum just above the AM radio band for the base transmit frequency. An AM radio slightly detuned or a shortwave receiver is all it takes to capture a signal from one of these, and their transmit range can be quite good.
Ten-channel systems became available around 1985 and replaced the AM mode used in the base with FM. They offer better clarity, less noise, and a range of about 1000 feet or so, although under ideal conditions, the signal can go much farther.
Twenty-five channel systems came out around 1995-1996 after the FCC opened up additional frequency space to relieve the overcrowded ten-channel systems. They keep the original channels from the ten-channel system (now set up as channels 16-25) and added fifteen new ones using the 43, 44, and 48 MHz bands. They offer the same basic range, with the only difference being the expanded selection of channels.
Because cordless phones operate on the lower end of the VHF spectrum, the rubber duckie antennas that ship with most handheld scanners are usually not enough to tune this band (unless one is right next to the base unit). A telescoping antenna is the best option (Radio Shack #20-006 works fine). For hobbyists on a budget, a portable homebrew antenna can be checked on the main scanner page.
For dedicated listeners, purchasing a good quality low-band antenna, such as the Grove Scanner Beam, the Channel Master 5094A, or the new 46 MHz antenna from Cellular Security Group, is recommended.
It is the base frequency that needs to be tuned in to hear both sides of a conversation. The handset frequency only provides audio coming from the handset itself but can be very useful in helping to identify the source house that the call originates from if a handheld scanner is owned. Once a call is locked onto on the base frequency, the handset counterpart can be accessed. If the signal is weak, the call is probably not nearby. By walking the vicinity, the signal should get clearer as one approaches the handset's signal. At this point, switching to the rubber duckie antenna or completely removing all antennas and continuing to walk may be necessary. The signal may get snowy again but will clear up when right on top of the source house. It should be noted that many cordless phones will scan all channels for the least amount of interference and then select one before giving dial tone or answering a call. If a specific frequency is pinpointed as coming from a particular neighbor, the frequency will likely be different the next time they pick up the phone.
Brief buzzsaw or chopping noises heard on the base frequencies usually indicate that an incoming call is being received (the base is ringing the handset). Remaining on this channel should allow one to hear someone answer shortly.
Some 46/49 MHz models use voice scrambling to maintain the privacy of the individual.
Cordless phones advertising 320,000 security codes to prevent unauthorized listening mean nothing to a scanner. These codes only prevent other cordless phones from listening in; even a baby monitor receiver can tune in these channels in most cases.
The circuit design for the FM receiver involves a variable frequency oscillator (VFO) that can be adjusted using a potentiometer, allowing for manual tuning across the specified frequency range of 30-50 MHz. The VFO output is fed into a mixer stage where it is combined with a local oscillator signal to produce an intermediate frequency (IF). This IF signal is then amplified using a low-noise amplifier (LNA) to enhance the signal strength before being demodulated. The demodulated audio signal is then processed through additional filtering stages to reduce noise and improve clarity. The output can be connected to a speaker or headphone for audio output. The design may also include a bandpass filter to ensure only the desired frequency range is processed, and an automatic gain control (AGC) circuit to maintain consistent audio levels despite variations in signal strength.Many Cordless phones are still analogue and use the frequency from 30-50MHz. The signal is FM-modulated and can easy be picked up with any FM-receiver. I will present a FM-receiver wich can be adjusted within this frequency range. The cordless phones can have different number of channels. In the oldest type you will find a single crystall (one channel). The multi-channel phones uses a synthesizer chip to set a frequency wich is not occupied. The receiver I present is not crystall controlled. The receiving frequency is set manually by a potensiometer. This way you can easy find any signal within the frequency range. Six-channel systems are pre-1984, and are all but obsolete. They differ from the other systems in that they use radio spectrum just above the AM radio band for the base transmit frequency. An AM radio slighly detuned or shortwave receiver is all it takes to capture a signal from one of these, and their transmit range can be quite good.
Ten-channel systems became available around 1985 and replaced the AM mode used in the base with FM. They offer better clarity, less noise, and a range of about 1000 feet or so, although under ideal conditions the signal can go much farther. Twenty-five channel systems came out around 1995-1996 after the FCC opened up additional frequency space to relieve the overcrowed ten-channel systems.
They keep the original channels from the ten-channel system (now setup as channels 16-25), and added fifteen new ones using the 43, 44 and 48 Mhz bands. They offer the same basic range, with the only difference being the expanded selection of channels. Because cordless phones operate on the lower end of the VHF spectrum, those rubber duckie antennas that ship with most handheld scanners are usually not enough to tune this band (unless you are right nextdoor to the base unit).
A telescoping antenna is your best bet (Radio Shack #20-006 works fine). Hobbyists on a budget - check the portable homebrew antenna on the main scanner page. For the real dedicated listener, consider purchasing good quality low-band antenna, such as the Grove Scanner Beam, the Channel Master 5094A, or the new 46 MHz antenna from Cellular Security Group. It is the base frequency that needs to be tuned in to hear both sides of a conversation. The handset frequency only provides audio coming from the handset itself, but can be very useful in helping you identify the source house that the call originates from if you own a handheld scanner.
Once you have locked onto a call on the base frequency, punch up its handset counterpart. If the signal is weak, the call is probably not real close. By walking the vicinity, the signal should get clearer as you near the handset's signal. At this point, you either switch to the rubber duckie antenna, or completely remove all antennas and continue walking. The signal will probably get snowy again, but will clear up when you are right on top of the source house.
Please note: many cordless phones will scan all channels for the least amount of interference, and then select one before giving dialtone or answering a call. If you pinpoint a specific frequency as coming from a particular neighbor, odds are that the frequency will be different next time they pick up the phone.
Brief buzzsaw or chopping noises heard on the base frequencies usually indicates that an incoming call is being received (the base is ringing the handset). Stay on this channel - you should hear someone answer shortly. Some 46/49 Mhz models use voice-scrambling to maintain the privacy of the individual. Cordless phones advertising 320,000 security codes to prevent unauthorized listening mean nothing to a scanner.
These codes only prevent other cordless phones from listening in - even a baby monitor receiver can tune in these channels in most cases. 🔗 External reference
Six-channel systems are pre-1984 and are all but obsolete. They differ from the other systems in that they use a radio spectrum just above the AM radio band for the base transmit frequency. An AM radio slightly detuned or a shortwave receiver is all it takes to capture a signal from one of these, and their transmit range can be quite good.
Ten-channel systems became available around 1985 and replaced the AM mode used in the base with FM. They offer better clarity, less noise, and a range of about 1000 feet or so, although under ideal conditions, the signal can go much farther.
Twenty-five channel systems came out around 1995-1996 after the FCC opened up additional frequency space to relieve the overcrowded ten-channel systems. They keep the original channels from the ten-channel system (now set up as channels 16-25) and added fifteen new ones using the 43, 44, and 48 MHz bands. They offer the same basic range, with the only difference being the expanded selection of channels.
Because cordless phones operate on the lower end of the VHF spectrum, the rubber duckie antennas that ship with most handheld scanners are usually not enough to tune this band (unless one is right next to the base unit). A telescoping antenna is the best option (Radio Shack #20-006 works fine). For hobbyists on a budget, a portable homebrew antenna can be checked on the main scanner page.
For dedicated listeners, purchasing a good quality low-band antenna, such as the Grove Scanner Beam, the Channel Master 5094A, or the new 46 MHz antenna from Cellular Security Group, is recommended.
It is the base frequency that needs to be tuned in to hear both sides of a conversation. The handset frequency only provides audio coming from the handset itself but can be very useful in helping to identify the source house that the call originates from if a handheld scanner is owned. Once a call is locked onto on the base frequency, the handset counterpart can be accessed. If the signal is weak, the call is probably not nearby. By walking the vicinity, the signal should get clearer as one approaches the handset's signal. At this point, switching to the rubber duckie antenna or completely removing all antennas and continuing to walk may be necessary. The signal may get snowy again but will clear up when right on top of the source house. It should be noted that many cordless phones will scan all channels for the least amount of interference and then select one before giving dial tone or answering a call. If a specific frequency is pinpointed as coming from a particular neighbor, the frequency will likely be different the next time they pick up the phone.
Brief buzzsaw or chopping noises heard on the base frequencies usually indicate that an incoming call is being received (the base is ringing the handset). Remaining on this channel should allow one to hear someone answer shortly.
Some 46/49 MHz models use voice scrambling to maintain the privacy of the individual.
Cordless phones advertising 320,000 security codes to prevent unauthorized listening mean nothing to a scanner. These codes only prevent other cordless phones from listening in; even a baby monitor receiver can tune in these channels in most cases.
The circuit design for the FM receiver involves a variable frequency oscillator (VFO) that can be adjusted using a potentiometer, allowing for manual tuning across the specified frequency range of 30-50 MHz. The VFO output is fed into a mixer stage where it is combined with a local oscillator signal to produce an intermediate frequency (IF). This IF signal is then amplified using a low-noise amplifier (LNA) to enhance the signal strength before being demodulated. The demodulated audio signal is then processed through additional filtering stages to reduce noise and improve clarity. The output can be connected to a speaker or headphone for audio output. The design may also include a bandpass filter to ensure only the desired frequency range is processed, and an automatic gain control (AGC) circuit to maintain consistent audio levels despite variations in signal strength.Many Cordless phones are still analogue and use the frequency from 30-50MHz. The signal is FM-modulated and can easy be picked up with any FM-receiver. I will present a FM-receiver wich can be adjusted within this frequency range. The cordless phones can have different number of channels. In the oldest type you will find a single crystall (one channel). The multi-channel phones uses a synthesizer chip to set a frequency wich is not occupied. The receiver I present is not crystall controlled. The receiving frequency is set manually by a potensiometer. This way you can easy find any signal within the frequency range. Six-channel systems are pre-1984, and are all but obsolete. They differ from the other systems in that they use radio spectrum just above the AM radio band for the base transmit frequency. An AM radio slighly detuned or shortwave receiver is all it takes to capture a signal from one of these, and their transmit range can be quite good.
Ten-channel systems became available around 1985 and replaced the AM mode used in the base with FM. They offer better clarity, less noise, and a range of about 1000 feet or so, although under ideal conditions the signal can go much farther. Twenty-five channel systems came out around 1995-1996 after the FCC opened up additional frequency space to relieve the overcrowed ten-channel systems.
They keep the original channels from the ten-channel system (now setup as channels 16-25), and added fifteen new ones using the 43, 44 and 48 Mhz bands. They offer the same basic range, with the only difference being the expanded selection of channels. Because cordless phones operate on the lower end of the VHF spectrum, those rubber duckie antennas that ship with most handheld scanners are usually not enough to tune this band (unless you are right nextdoor to the base unit).
A telescoping antenna is your best bet (Radio Shack #20-006 works fine). Hobbyists on a budget - check the portable homebrew antenna on the main scanner page. For the real dedicated listener, consider purchasing good quality low-band antenna, such as the Grove Scanner Beam, the Channel Master 5094A, or the new 46 MHz antenna from Cellular Security Group. It is the base frequency that needs to be tuned in to hear both sides of a conversation. The handset frequency only provides audio coming from the handset itself, but can be very useful in helping you identify the source house that the call originates from if you own a handheld scanner.
Once you have locked onto a call on the base frequency, punch up its handset counterpart. If the signal is weak, the call is probably not real close. By walking the vicinity, the signal should get clearer as you near the handset's signal. At this point, you either switch to the rubber duckie antenna, or completely remove all antennas and continue walking. The signal will probably get snowy again, but will clear up when you are right on top of the source house.
Please note: many cordless phones will scan all channels for the least amount of interference, and then select one before giving dialtone or answering a call. If you pinpoint a specific frequency as coming from a particular neighbor, odds are that the frequency will be different next time they pick up the phone.
Brief buzzsaw or chopping noises heard on the base frequencies usually indicates that an incoming call is being received (the base is ringing the handset). Stay on this channel - you should hear someone answer shortly. Some 46/49 Mhz models use voice-scrambling to maintain the privacy of the individual. Cordless phones advertising 320,000 security codes to prevent unauthorized listening mean nothing to a scanner.
These codes only prevent other cordless phones from listening in - even a baby monitor receiver can tune in these channels in most cases. 🔗 External reference
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