Kenwood TS-480 manual Circuitry, TX circuits 200W final section

Page 8

Circuitry

TX circuits

200W final section

Explained here is the circuitry for the 200W final section, the crown jewel of the TS-480 Series. This circuit is responsible for developing 200W output with a DC 13.8V power supply. Of course, various approaches are possible. The typical one would be to use a high voltage (28V or more) with the FETs in a push-pull arrangement. However, we did not adopt this approach since a DC-DC combination that raises the voltage to 28V exclusively for this purpose was considered inappropriate for a compact rig. The final section of a regular transceiver delivers 100W from 13.8V, so the normal approach would be to use this as the basis for a 200W design. Hence, we considered the pros and cons of using 4 final devices, each with 50W output, to produce a total of 200W.

I will not go into details here, but following our calculations and tests we discovered that simply hooking up the devices in parallel would not be a practical solution because of issues related to the output transformer. The solution we finally adopted was to have a pair of 100W final sections with a standard push-pull arrangement, combining these to obtain an output of 200W. Since this is the most popular method, we should perhaps have adopted it from the start, but having no past experience with a transceiver producing 200W from a 13.8V supply, we looked at the design issues from various angles including performance, quality, size, cost, and manufacturability.

When one simply says “combine”, there are in fact different ways to do this. For example, you can take a pair of 100W final circuits and connect in series the secondary circuit of the output transformer in phase to double the output, thus producing 200W. When we actually experimented with this, we found that it worked okay. Frequency characteristics were good. However, using this method means that one cannot provide isolation between the amplifiers. So what we finally adopted was the old standby in situations like this – namely, a wideband hybrid combiner.

The circuit for this combiner is straightforward: if you reverse the input and output it will actually work as a splitter. For the TS-480HX, we put together a 200W output final circuit by using this type of combiner on the input/output of a pair of 100W final amplifiers. For the 50MHz band, we have limited the output to 100W because of the heat that we knew would be generated from loss.

A hybrid combiner only works on the condition that the two signals are identical in amplitude and phase. Since our final section was to operate in the HF~50MHz bands, it would qualify as wideband in terms of frequency but there would be some concern for the balance frequency characteristics. However, this sort of power combiner has been used before for general applications, so in that sense it is an approach that can be adopted with some confidence.

When it came to the actual design (mounting), an ideal, symmetrical layout of the components was not possible; however, care was taken to preserve the balance, for example by employing isometric wiring for patterns in which there are many high-frequency currents flowing.

The device used was the 2SC2782 bipolar transistor. Since this has a collector loss of 220W, there would a total loss of 880W in a 200W set equipped with four of them; this represents more than enough leeway for operations.

Continuous transmission performance with such a compact design is explained in the section on the TS-480 structure.

8

Image 8
Contents Page TS-480HX TS-480SAT Back to basics The appeal of HF lies in DX’ing Design ObjectivesDetermination to create a unique transceiver 200W challenge Standalone control panelFocus on basic performance Adding appeal to fixed station operations Overview of the TS-480 SeriesAchieving 200W output in a compact transceiver Development Objectives for the TS-480 SeriesTS-480 concept began with development of the TS-570? Focusing on HF Circuitry TX circuits 200W final sectionTX IMD output 200W SPS separate power sources TS-480HX only SPS schematic diagramAntenna tuner TS-480SAT Failsafe device some TS-480HX versions only100W final section 200W final section FM modulation block diagram FM circuitRX circuitry Front end RX 1st mixerRX dynamic range RX sensitivity Jumpers for joy Circuitry after the roofing filter Comparison of optional CW filters 500HzOption installation unit Auxiliary Features Features useful for 50MHz operationsFeatures useful for mobile operations Full compatibility with digital modes data modesNew 5MHz band Ideal for mobile operations DNL Features of the Built-in DSPDSP circuit Noise reduction Demonstrates how ignition noise is reduced by the DNLNR OFF Beat cancel BC OFFRX DSP filters Switching Width During CW operations RX equalizer & TX equalizer CW auto tuneTips TS-480 menusDSP Useful if you want to go on to tune FSK APO Functions that can be assigned to PF keys Assigned Use Split Making menus easier to use Menu switching Quick menuStructural Features Internal structure of the main unitCooling diagram CoolingUpper side Temperature rise around final transistors Page Design concept Message recording/playback function New Option Voice Guide & Storage Unit VGS-1Constant recording function Reset Configuration mode for TX output, etcMenu settings Split mode Voice GuideOther features VFO mode, direct frequency entryMemory channel Variable Voice Guide speedButton layout & basic operation Main functionsKNS added Changing memory and registered details CW keyingCompatibility with KNS Kenwood Network Command System Reading and writing filesSetting up KNS on the Arcp side Accidental continuous TXPage Using a broadband router Checking LAN settings New Option ARHP-10 Amateur Radio Host Program FreewareAdjust PC volume User setupPage Troubleshooting Network & Operations Problem SolutionCannot get KNS to work Sound Problem Solution Connect a microphone to the computer and bring up TS-480 In-Depth Manual