Home |
Search |
Today's Posts |
|
#1
|
|||
|
|||
Transmitter ALC
Automatic Level Control, ALC. What characteristics of the load impedance are used to automatically control the drive-level of the power amplifier? Whatever they are must apply to CW, SSB and FM modes of operation. ---- Reg. |
#2
|
|||
|
|||
On Sat, 8 Oct 2005 18:54:44 +0000 (UTC), "Reg Edwards"
wrote: Automatic Level Control, ALC. What characteristics of the load impedance are used to automatically control the drive-level of the power amplifier? Well, as you no doubt know Reg, in the early days of application of ALC to amateur transmitters it was literally to control the drive level of the PA, and often did that is a closed loop where excess drive in a class AB1 PA was detected by occurrence of grid current, which was used to reduce gain in prior stages to limit the drive level to AB1 conditions. Such a control system is indirectly affected by the PA load. Today, modern transceivers have further developed that idea to controlling the RF output voltage or (differently) PEP power out (ie be detecting Vout or power out and adjusting gain in prior stages to limit output. This might more loosely be called Automatic Power Control. In this case, the measurement point of the control loop is more directly affected by the load. Many modern solid state transceivers also detect poor loading using a reflectometer calibrated for the specified load for rated output power, and reduce drive based on the measured "reflected power" in the reflectometer to protect the PA (if that needs to be done anymore for that purpose - transistors are more robust). This might be properly described as PA Protection. The measurement is directly affected by the load, and is highly responsive to load changes beyond a configured threshold. All of these things may be included in the readers understanding of ALC. Certainly, many if not most, modern solid state transceivers perform all three of these functions, and display the control voltage as "ALC". And many current model external valve based high power PAs (Linear Amplifiers) still use the grid current detection scheme (if it is hooked back to the transceiver). Whatever they are must apply to CW, SSB and FM modes of operation. And AM? Owen ---- Reg. -- |
#3
|
|||
|
|||
"Owen Duffy" wrote various ways and means of automatically controlling the power output of transmitters. Thanks very much. Presumably control is needed to limit the power dissipated in the output transistors which involves a time delay. And, which is a different thing, to place limits on the instantaneous collector/emitter voltage. In my Icom 735 transceiver the first control requirement appears to be met by by placing a limit on the DC collector current or power input. The second requirement appears to be met by feeding back a gain-control voltage proportional to the magnitude of the reflection coefficient of the load impedance. I may not be entirely correct. ---- Reg. |
#4
|
|||
|
|||
On Sun, 9 Oct 2005 20:11:09 +0000 (UTC), "Reg Edwards"
wrote: "Owen Duffy" wrote various ways and means of automatically controlling the power output of transmitters. Thanks very much. Presumably control is needed to limit the power dissipated in the output transistors which involves a time delay. And, which is a different thing, to place limits on the instantaneous collector/emitter voltage. Another method of PA protection is thermal protection of the PA, sometimes integrated with cooling fan control. In my experience, where drive control is deployed, it reduces drive to prevent the heatsink exceeding about 60 deg C. I have found such protection commonly on commercial FM land mobile equipment (two way radios), some amateur FM mobiles, and less frequently in HF equipment. In my Icom 735 transceiver the first control requirement appears to be met by by placing a limit on the DC collector current or power input. You are right, some radios do incorporate over-current protection of the PA. It is in some Icom radios (IC706IIG, IC7400 / IC746PRO), and I suspect many other Icoms will share this feature. Whilst probably intended for PA protection, it has the great benefit that the radio is less likely to draw excessive current while adjusting an ATU, and tripping over-current protection in a power supply. A radio that needs 16A in operation, but 25 during tune is a pain in the butt on a nominal 20A power supply with over current protection that kicks in above 22A! The second requirement appears to be met by feeding back a gain-control voltage proportional to the magnitude of the reflection coefficient of the load impedance. I may not be entirely correct. As I described, and for example, from the IC706IIG service manual: "The reflected wave signal appears and increases on the antenna connector when the antenna is mismatched. The HF/50 MHz reflected signal level is detected at D10 (FILTER board), and is amplified at the APC amplifier (IC1091c) and applied to the ALC circuit as the reference voltage." You are probably (almost certainly) correct about the 735 having a "reflected power" limiting circuit, but Icom's view seems to be that if you want to read their description of how the radio works (if you had an interest in that sort of thing), you need to purchase the service manual. Where is all this leading Reg? Owen -- |
#5
|
|||
|
|||
"Owen Duffy" wrote Where is all this leading Reg? ===================================== Owen, you sound very slightly suspicious. smiley But it improves my and other readers education on a previously undiscussed topic of conversation. Thanks, Reg, G4FGQ. |
#6
|
|||
|
|||
A radio that needs 16A in operation, but 25 during tune is a
pain in the butt on a nominal 20A power supply with over current protection that kicks in above 22A! Myself, I never tune using full power. With my 706g, I either put it on "AM", or reduce the drive to a pretty low level. I did the same on my 730. Only with a good match would I ever test full power output. I do the same with my tube TS-830.. heck, actually any transmitter... :/ MK |
#9
|
|||
|
|||
wrote in message oups.com... A radio that needs 16A in operation, but 25 during tune is a pain in the butt on a nominal 20A power supply with over current protection that kicks in above 22A! Myself, I never tune using full power. With my 706g, I either put it on "AM", or reduce the drive to a pretty low level. I did the same on my 730. Only with a good match would I ever test full power output. I do the same with my tube TS-830.. heck, actually any transmitter... :/ MK I switch to CW, set the keyer for maximum speed, and send a string of dits, On the Icom 756 you can do that with the microphone buttons. Tam/WB2TT |
#10
|
|||
|
|||
Owen,
You have obviously have extensive knowledge and familiarity with some equipment on this subject. I haven't studied this aspect of the radios I have yet, but offer the following from my design experience. There are several relatively independent considerations which have been mentioned in this thread and I hope this clears up any confusion about which is doing what. My understanding of the true purpose of (what we call) ALC is to prevent distortion in the final amplifier and the resulting "splatter" it causes, while allowing the maximum power out. As you so correctly point out, this originated in the linear amplifiers of old. Distortion at this point causes increased intermodulation (mixing) of the desired signal components and the resulting products appear out of the normal bandwidth = "splatter". There is always SOME of this going on, but as long as it is below about -30 dBc this is considered acceptable. Because there is no Grid current to sense in solid state amplifiers, some other method of detecting the onset of distorting is required. Not knowing what _IS_ done, I can only speculate that knowing the highest level of output power which causes only a small, allowable increase in distortion, an output level detector can be designed which begins to provide feed back which cuts drive when this point is reached; thus paralleling the function of the grid current detection method of old. Because this is an instantaneous feedback system with a relatively high gain, the feed back voltage will exhibit a considerable rise as the device is driven closer and closer to the undesirable point. This must be what we are looking at that is called ALC on the front of the radio. As long as the level of this signal is within the manufacturer's limits, the distortion is limited to the specification and you are assured of the highest power with in-spec distortion. With solid state comes other considerations which are actually separate from the distortion issue although from a circuitry standpoint they may seem identical. Because these devices have been and are still somewhat sensitive to mis-treatment and can be destroyed instantaneously, various methods are available to help save the devices. However, had they been easily available in tube days, they would have been equally applicable. Sensing and placing a limit on collector/drain current is one method. Some load conditions can cause excessive current resulting in device destruction, so sensing over-current electronically and reducing drive can prevent this. With the advent of simple reverse power sensing circuitry, another fault detection scheme can be used to reduce drive and protect the final power device. Sensing SWR and reducing drive can prevent high device current and destruction, as well. Heat rise can also destroy the device, so sensing device temp and reducing drive controls this also. Because a design has one or more of these, the identity of each could be confused by combining the feedback signal and calling it only "ALC" when in actuality, there are two or more protection schemes present along with the (distortion limiting) ALC. 73, Steve, K'9;D.C,I snipping quite a bit: "Owen Duffy" wrote in message news On Sun, 9 Oct 2005 20:11:09 +0000 (UTC), "Reg Edwards" wrote: "Owen Duffy" wrote various ways and means of automatically controlling the power output of transmitters. Thanks very much. Presumably control is needed to limit the power dissipated ... Another method of PA protection is thermal protection of the PA... In my Icom 735 transceiver the first control requirement appears to be met by by placing a limit on the DC collector current or power input. You are right, some radios do incorporate over-current protection ... Whilst probably intended for PA protection, it has the great benefit that the radio is less likely to draw excessive current while adjusting an ATU, ... As I described, and for example, from the IC706IIG service manual: "The reflected wave signal appears ...the antenna is mismatched. The ...signal level is detected ...and applied to the ALC circuit as the reference voltage." .... Owen -- |
Reply |
|
Thread Tools | Search this Thread |
Display Modes | |
|
|
Similar Threads | ||||
Thread | Forum | |||
a great read | CB | |||
Auction ends in 1 hour! 2 Watt FM Stereo Broadcast 88-108 MHz LCDDigital PLL Transmitter | Shortwave | |||
Auction ends in 1 hour! 2 Watt FM Stereo Broadcast 88-108 MHz LCDDigital PLL Transmitter | Swap | |||
Auction ends in 1 hour! 2 Watt FM Stereo Broadcast 88-108 MHz LCDDigital PLL Transmitter | Scanner | |||
Auction ends in 1 hour! 2 Watt FM Stereo Broadcast 88-108 MHz LCDDigital PLL Transmitter | Homebrew |