Reduce the length of the antenna to reduce the amount of overload. Then increase it for good range after you have tuned the radio to the real signal, not to the overload signal frequency. The radio is not overloaded if it tunes in the transmitter at only a single spot on its dial.
Maybe your transmitter is at the image frequency of your radio. It is 10.7MHz above or below the real frequency and will have poor reception.
A trimmer capacitor is very hard to tune. It is adjusted only one time. The tuning capacitor and knob from an FM radio would be better.
I think I got what do you mean, let me try.
Reduce the length of the antenna is to reduce the overloading, so that the transmitter tune to the right frequency of the receiver (maybe the other side round). After getting the right frequency, the length of the antenna can be increased to increase the transmission distance, right?
Why is it 10.7MHz?
I'm using 33pF trimmer capacitor, can I know what is the frequency range?
A trimmer capacitor is very hard to tune. It is adjusted only one time. The tuning capacitor and knob from an FM radio would be better.
I think I got what do you mean, let me try.
Reduce the length of the antenna is to reduce the overloading, so that the transmitter tune to the right frequency of the receiver (maybe the other side round). After getting the right frequency, the length of the antenna can be increased to increase the transmission distance, right?
The IF amplifier of an FM radio operates at 10.7MHz. The local oscillator is 10.7MHz higher or lower and the image frequency is the opposite because a super-heterodyne radio mixes the sum and difference frequencies of the input signal with the local oscillator.
I'm using 33pF trimmer capacitor, can I know what is the frequency range?
It is only part of the frequency determining parts. The inductance of the coil, the inductance of the wiring, the capacitance of the oscillator transistor and its voltage, the capacitance of the capacitor from its collector to its emitter and stray capacitance also determine the frequency.
I'm using a 7805, a 100:mu:F and a 1:mu:F at both input and output. Should I remove the 100:mu:F at the output and replace with the higher that you mentioned?
Hero999 said:
You might be using the wrong sized pre-emphasis capacitor, try changing it.
Hi,
The transmitter is working with my superhet radio . I've changed the coil of the radio to be the same as the transmitter. The transmission is more than 10 feet (I'm using power supply, can't go further).
But it stoped working suddently, no matter how I tuned the receiver, I can receive some radio channel only but not from the transmitter. I tried to measure the antenna of the transmitter with oscilloscope, nothing is there anymore (prevously there is sinewave with high frequency) and, the Q3 becomes hot. The collector voltage of Q3 is around 8 volts.
How come? This circuit cannot last long? I supply 9 volts. Is the Q3 already burned?
I guess the RF oscillator stopped. Q3 is biased on by R8 and will be conducting up to about 40mA into the collector coil and will dissipate up to about 365mW and be fairly hot. Its max heat dissipation rating is 625mW so it should not be burned.
Q3 in my transmitter becomes warm while it is working.
A 12-0-12 transformer will make a peak voltage of 17V and the two rectifiers will drop it to about 16.3V. The filter capacitor's ripple will drop it to about 15.3VDC. It will work fine since the 7809 needs a minimum voltage of 12VDC.
A 12V transformer without a center tap will make a voltage of 14.6VDC which is also fine. It uses a bridge rectifier (4 diodes).
A 12-0-12 transformer will make a peak voltage of 17V and the two rectifiers will drop it to about 16.3V. The filter capacitor's ripple will drop it to about 15.3VDC. It will work fine since the 7809 needs a minimum voltage of 12VDC.
A 12V transformer without a center tap will make a voltage of 14.6VDC which is also fine. It uses a bridge rectifier (4 diodes).
I think Ill choose the bridge rectifier. The '0' is not being used right? Use only +12 volts and -12 volts.
I still can't find what's wrong with my transmitter circuit. I've changed the trimmer capacitor of the oscillator, and I've taken out some resistors and measured the resistance, nothing is wrong. Reallllly sad how come it was working at the 1st time..
A 12VAC transformer uses 4 rectifier diodes to make 14.6VDC.
A 12-0-12 transformer has its center-tap connected to the circuit's ground and uses only 2 rectifier diodes to make 15.3VDC. If you don't use the "0" wire then its output is zero or 32.2VDC with a lot of ripple.
It sounds like you're having problems with thermal runaway. Replace Q3, it's now ruined. Add a small resistor between 10hm: and 100hm: to the emitter of Q3.
A 12VAC transformer uses 4 rectifier diodes to make 14.6VDC.
A 12-0-12 transformer has its center-tap connected to the circuit's ground and uses only 2 rectifier diodes to make 15.3VDC. If you don't use the "0" wire then its output is zero or 32.2VDC with a lot of ripple.
Not really. I have some replacement:
low drop out voltage regulator -->7805
160k (R2) -->180k
30k (R3) --> 33k
30pF (C12) --> 22pF
I'm using a 150nF for C4.
I'm using a power supply unit to supply 9 volts.
It sounds like you're having problems with thermal runaway. Replace Q3, it's now ruined. Add a small resistor between 10 and 100 to the emitter of Q3.
I've changed Q3, it is still getting hot (without any resistor at the emitter). But I've measured the collector of the oscillator transistor (Q2) with probe, there is no high frequency sinewave like previously.
I haven't tried to add the resistor yet.