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#11
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Cobra 2010 loses Tx audio
On Sat, 17 Feb 2007 15:49:51 -0600, "Pete KE9OA"
wrote in : Sounds like it might be a little too hot for the band..... I am not sure what you mean. I have found that it's sometimes better to DE-sensitize the receiver front-end on a noisy band. Tends to improve S/N. I do have the service manual, but I have never seen this kind of problem. Never assume the manual is correct. Establish a baseline by injecting a single tone post-AGC, run it up to 100% and measure. Then re-align the AGC to your mic according to that baseline. I might inject the signal right at the audio amplifier and work backwards. Same difference. For testing purposes, I am using a CT Systems Model 3000B Communications Test Set. For the brief time that Tx audio is present, the modulation envelope looks fine. This unit has a built in 100W dummy load. RF output is flat across the band, at 4.5W, so it doesn't look like somebody tried to align the exciter/output stages. Sounds like it may have an RF limiter. If you have a pulse generator, hit the audio with 0.1ms spikes. That will also tell you if the audio limiter has been disabled. I'll give that at ry. It looks like I will have to do some signal tracing with an o'scope. Hopefully, I will be able to find that 5-pin mic plug so I can make up a test cable. Thanks again for the advice! No problem. If you ever get around to scanning the manual I wouldn't mind having a copy. I will do that. I only can scan up to 11 X 14 size, so the schematics will be broken pages,but that should be fine. No hurry. I only get a couple CB radios a year, so it's hard to tell if or when I'll run across this model. There really should be a public CB manual repository like BAMA..... maybe some day. |
#12
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Cobra 2010 loses Tx audio
That sounds good.............I will probably scan the service info in the
next couple of weeks. now, about the receiver desensing.....I don't have any problems with IMD in the receiver, and a diode attenuator is used in the front end. I have found that IMD performance can be improved by changing that general purpose switching diode in the front to a 1N5767 PIN diode. I wanted to get started on this project this afternoon, but a friend stopped over. I'll give it a whirl tonight. It will be quite a nice radio, once I get through with it. "Frank Gilliland" wrote in message news On Sat, 17 Feb 2007 15:49:51 -0600, "Pete KE9OA" wrote in : Sounds like it might be a little too hot for the band..... I am not sure what you mean. I have found that it's sometimes better to DE-sensitize the receiver front-end on a noisy band. Tends to improve S/N. I do have the service manual, but I have never seen this kind of problem. Never assume the manual is correct. Establish a baseline by injecting a single tone post-AGC, run it up to 100% and measure. Then re-align the AGC to your mic according to that baseline. I might inject the signal right at the audio amplifier and work backwards. Same difference. For testing purposes, I am using a CT Systems Model 3000B Communications Test Set. For the brief time that Tx audio is present, the modulation envelope looks fine. This unit has a built in 100W dummy load. RF output is flat across the band, at 4.5W, so it doesn't look like somebody tried to align the exciter/output stages. Sounds like it may have an RF limiter. If you have a pulse generator, hit the audio with 0.1ms spikes. That will also tell you if the audio limiter has been disabled. I'll give that at ry. It looks like I will have to do some signal tracing with an o'scope. Hopefully, I will be able to find that 5-pin mic plug so I can make up a test cable. Thanks again for the advice! No problem. If you ever get around to scanning the manual I wouldn't mind having a copy. I will do that. I only can scan up to 11 X 14 size, so the schematics will be broken pages,but that should be fine. No hurry. I only get a couple CB radios a year, so it's hard to tell if or when I'll run across this model. There really should be a public CB manual repository like BAMA..... maybe some day. |
#13
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Cobra 2010 loses Tx audio
Thanks Vinny. I'll check the power supply and see if droop is occuring on
Tx. I need to take a close look at the schematic and check the low current line. I think it is 8VDC. The seller was nice enough to tell me that he removed the battery from the microphone so that damage wouldn't occur. He probably figured that it would take me a few days before tested the radio. Whenever I get ahold of an eBay item, the first thing I do is open up the unit and make sure that somebody didn't try to align it. Next, I connect up an RF generator and measure the sensitivity, after which I check the RF output and modulation index of the transmitter on a service moniter. Looks like I picked up another "tech special". This unit isn't as bad as the Drake TR7 I picked up from a fellow in Ohio last year. He conveniently didn't include a microphone or a power cord, but he was nice enough to include a Cinch Jones connector for the 12V input. I had a PS7 power supply on hand, and I noticed that power output was low on 10M. I found a cold solder joint on one of the exciter boards. In an attempt to cover up the problem, he defeated the ALC circuit, so after I repaired the unit and checked the power output it was putting out over 275 watts. I readjusted the ALC and everything was fine. When I contacted the seller and shared my findings with him, he said "Oh, I was wondering why I had to crank up the mic gain with this one". Pete "Vinnie S." wrote in message ... On Sat, 17 Feb 2007 01:59:59 -0600, "Pete KE9OA" wrote: Another eBay special that "worked perfectly". It doesn't matter if I put in an external audio source from an audio oscillator or a microphone. I've tried three good microphones, and have the same problem. When I first key the mic, Tx audio is fine, but it quickly, almost abruptly fades after about 2 seconds. Has anybody seen this problem? Pete I had this problem on my 2510. Ended up finding out that my power supply wasn't cutting it. I went to a larger power supply. Since yours in internal, I am not sure that is the problem. But the damn symptom iwas the exact same. Vinnie S. |
#14
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Cobra 2010 loses Tx audio
On Sat, 17 Feb 2007 22:26:50 -0600, "Pete KE9OA"
wrote in : ....... about the receiver desensing.....I don't have any problems with IMD in the receiver...... IMD is minor compared to the negative effects of high input impedance of the RF preamp, which is almost always too high. Reducing the 1st RF gain (A = 5 to 10) will reduce the input impedance and make it less vulnerable to noise -- especially the white background noise. You can compensate by increasing gain in the IF stages. Then realign your input matching network and =blammo=, weak signals are solid with much less noise. ......., and a diode attenuator is used in the front end. I have found that IMD performance can be improved by changing that general purpose switching diode in the front to a 1N5767 PIN diode. As long as the original isn't used for overload protection, I don't see any problem with that. But then I don't see any advantage, either. The band is just too noisy for it to make any significant improvement. Still, I've got a crusty old Diamond 60 laying around somewhere, so I'll give it a try anyway. |
#15
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Cobra 2010 loses Tx audio
I understand what you are saying, but the RF amplifier should be conjugate
matched to 50 ohms anyway, in order to have uncondisional stability. I am not sure what the noise figure of this system is, but it seems that the gain distribution is such that most of the gain is in the 2nd I.F. strip anyway. Even so, under 30MHz, in most areas the excess environmental noise is in the 15dB region so a receiver with a 12dB noise figure does just fine. I remember the old Allied Model 2568 CB radio. This thing had quite a bit of RF gain and relatively low I.F. gain. As soon as you connected an antenna, it sounded like an FM unit. The problem with that design is that the AGC voltage was derived from the RF stage with its relatively low selectivity, in addition to the I.F. strip. Strong off channel signals would capture the AGC loop and desense the whole system. Remember the old term "bleed over"? You do have a good point about keeping the RF gain ahead of the mixer as low as possible, since any gain ahead of the 1st mixer degrades the dynamic range by that same amount. In my last contract with Motorola, we were using mixers that had an IP3 of +40dBm so we were able to get away with having some gain ahead of that mixer. IMD is minor compared to the negative effects of high input impedance of the RF preamp, which is almost always too high. Reducing the 1st RF gain (A = 5 to 10) will reduce the input impedance and make it less vulnerable to noise -- especially the white background noise. You can compensate by increasing gain in the IF stages. Then realign your input matching network and =blammo=, weak signals are solid with much less noise. ......., and a diode attenuator is used in the front end. I have found that IMD performance can be improved by changing that general purpose switching diode in the front to a 1N5767 PIN diode. As long as the original isn't used for overload protection, I don't see any problem with that. But then I don't see any advantage, either. The band is just too noisy for it to make any significant improvement. Still, I've got a crusty old Diamond 60 laying around somewhere, so I'll give it a try anyway. |
#16
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Cobra 2010 loses Tx audio
On Sun, 18 Feb 2007 09:21:02 -0600, "Pete KE9OA"
wrote: +++I understand what you are saying, but the RF amplifier should be conjugate +++matched to 50 ohms anyway, in order to have uncondisional stability. I am +++not sure what the noise figure of this system is, but it seems that the gain +++distribution is such that most of the gain is in the 2nd I.F. strip anyway. +++Even so, under 30MHz, in most areas the excess environmental noise is in the +++15dB region so a receiver with a 12dB noise figure does just fine. +++I remember the old Allied Model 2568 CB radio. This thing had quite a bit of +++RF gain and relatively low I.F. gain. As soon as you connected an antenna, +++it sounded like an FM unit. The problem with that design is that the AGC +++voltage was derived from the RF stage with its relatively low selectivity, +++in addition to the I.F. strip. Strong off channel signals would capture the +++AGC loop and desense the whole system. Remember the old term "bleed over"? +++You do have a good point about keeping the RF gain ahead of the mixer as low +++as possible, since any gain ahead of the 1st mixer degrades the dynamic +++range by that same amount. In my last contract with Motorola, we were using +++mixers that had an IP3 of +40dBm so we were able to get away with having +++some gain ahead of that mixer. +++ *********** Conjugate match is needed for maximum power transfer. Nuetralization helps extend stability over various mismatch condistions. In a receiver RF front end it is preferable to match for best noise figure and accept the gain. The less gain before the mixer the better. The RF front end sets the noise figure for the whole receiver. The gain of the RF Front end need only be high enough to overcome the noise figure of the next stage and any losses it may present if any. More often than not,CB calibur radios places far to much gain in the first stages so that more simple IF stages can be used. Thereby lowering costs. james |
#17
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Cobra 2010 loses Tx audio
On Sun, 18 Feb 2007 09:21:02 -0600, "Pete KE9OA"
wrote in : I understand what you are saying, but the RF amplifier should be conjugate matched to 50 ohms anyway, in order to have uncondisional stability. I don't have the schematic for your radio in front of me, but if that 1st RF stage is like most CB radios it's common emitter. So the input impedance is a lot higher than 50 ohms, and is matched to the antenna with a transformer or LC network. Not exactly ideal. I am not sure what the noise figure of this system is, but it seems that the gain distribution is such that most of the gain is in the 2nd I.F. strip anyway. Even so, under 30MHz, in most areas the excess environmental noise is in the 15dB region....... Are we talking 11m here? so a receiver with a 12dB noise figure does just fine. I remember the old Allied Model 2568 CB radio. This thing had quite a bit of RF gain and relatively low I.F. gain. As soon as you connected an antenna, it sounded like an FM unit. The problem with that design is that the AGC voltage was derived from the RF stage with its relatively low selectivity, in addition to the I.F. strip. Strong off channel signals would capture the AGC loop and desense the whole system. Remember the old term "bleed over"? You do have a good point about keeping the RF gain ahead of the mixer as low as possible, since any gain ahead of the 1st mixer degrades the dynamic range by that same amount. The objective is not low gain but low input impedance. Closer to the impedance of the feed, to keep the first impedance transformation as small as possible. With a common emitter, the only way to do that is by reducing the gain. And just at the first RF stage, not necessarily everything else in front of the first mixer. In my last contract with Motorola, we were using mixers that had an IP3 of +40dBm so we were able to get away with having some gain ahead of that mixer. Most of the problems I've had with mixers came not from the mixers but from unbuffered oscillators. Anywayz..... I guess the question is if the radio works well enough as it sits. If you can hear a signal buried in the band noise then that's about as good as it gets. The only way I know to improve it is by matching the impedance of the first RF to the antenna. Beyond that you'll need to get a directional antenna. |
#18
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Cobra 2010 loses Tx audio
On Mon, 19 Feb 2007 01:09:52 GMT, james wrote
in : On Sun, 18 Feb 2007 09:21:02 -0600, "Pete KE9OA" wrote: +++I understand what you are saying, but the RF amplifier should be conjugate +++matched to 50 ohms anyway, in order to have uncondisional stability. I am +++not sure what the noise figure of this system is, but it seems that the gain +++distribution is such that most of the gain is in the 2nd I.F. strip anyway. +++Even so, under 30MHz, in most areas the excess environmental noise is in the +++15dB region so a receiver with a 12dB noise figure does just fine. +++I remember the old Allied Model 2568 CB radio. This thing had quite a bit of +++RF gain and relatively low I.F. gain. As soon as you connected an antenna, +++it sounded like an FM unit. The problem with that design is that the AGC +++voltage was derived from the RF stage with its relatively low selectivity, +++in addition to the I.F. strip. Strong off channel signals would capture the +++AGC loop and desense the whole system. Remember the old term "bleed over"? +++You do have a good point about keeping the RF gain ahead of the mixer as low +++as possible, since any gain ahead of the 1st mixer degrades the dynamic +++range by that same amount. In my last contract with Motorola, we were using +++mixers that had an IP3 of +40dBm so we were able to get away with having +++some gain ahead of that mixer. +++ *********** Conjugate match is needed for maximum power transfer. IMPEDANCE match... for maximum power transfer. A 'conjugate' match is when the impedances are complex, which isn't always the case. Nuetralization helps extend stability over various mismatch condistions. Lots of things can improve stability, but unless the amp/mixer is oscillating the point is moot. In a receiver RF front end it is preferable to match for best noise figure and accept the gain. The less gain before the mixer the better. The RF front end sets the noise figure for the whole receiver. The gain of the RF Front end need only be high enough to overcome the noise figure of the next stage and any losses it may present if any. All true. But the point I was trying to make (which I incorrectly assumed was already understood) is that any impedance matching device or network between the antenna and the 1st RF can cause more noise from IMD than the noise from the 1st RF or mixer, -especially- if that matching device/circuit uses a ferrite core or solid dielectric, which includes almost all CB radios. That's why strong signals can sometimes be heard even when the source is several MHz away (often mistaken for receiver overload). The concept here is to reduce (or, ideally, eliminate) that impedance transformation stage. A long time ago I built a common base (voltage follower) RF preamp using eight transistors in parallel followed by the impedance transformation stage (transformer). The input impedance directly to the transistors is about 100 ohms, but I feed it directly anyway. The difference is like night and day. I use it for lowfer work these days. More often than not,CB calibur radios places far to much gain in the first stages so that more simple IF stages can be used. Thereby lowering costs. Like you said before, the first RF is all that matters. |
#19
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Cobra 2010 loses Tx audio
On Sun, 18 Feb 2007 18:24:33 -0800, Frank Gilliland
wrote: +++Conjugate match is needed for maximum power transfer. +++ +++ +++IMPEDANCE match... for maximum power transfer. A 'conjugate' match is +++when the impedances are complex, which isn't always the case. *********** I have found that it is rare in the real world that impeadances are not complex. Outside transimission lines, there is little that is not complex. Then again when you conjugate match, the imaginary part of the complex impedances is nulified and you are then left with the real part. james |
#20
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Cobra 2010 loses Tx audio
On Mon, 19 Feb 2007 19:12:33 GMT, james wrote
in : On Sun, 18 Feb 2007 18:24:33 -0800, Frank Gilliland wrote: +++Conjugate match is needed for maximum power transfer. +++ +++ +++IMPEDANCE match... for maximum power transfer. A 'conjugate' match is +++when the impedances are complex, which isn't always the case. *********** I have found that it is rare in the real world that impeadances are not complex. Outside transimission lines, there is little that is not complex. You just said that resistors have complex impedance and transmission lines are flat. Then again when you conjugate match, the imaginary part of the complex impedances is nulified and you are then left with the real part. Reactances don't just disappear. They create a current between the source and load that must be assessed to see if it is going to cause any problems. Sometimes it doesn't and sometimes it does. |
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