Kenwood TS-590S manual Noise Blanker NB2 if Processing

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4 DSP

Figure 4-10 shows how BC cancels beat signals, as monitored by an FFT analyzer. Notice how multiple beats are clearly removed by BC.

There are two methods available for beat cancellation: BC1 and BC2. BC1 is tuned to be effective against weak or continuous beat interference, while BC2 cancels intermittent beats such as a CW signal. Note that since BC is designed to remove beats, it does not function in CW mode.

BC is a signal process method at the AF stage. Therefore, if there is a beat signal in proximity that is stronger than the target signal, BC effectively removes the beat interference from the audio output, but in the event the AGC is activated by the beat signal, the target signal is suppressed when received.

In such an occasion, the auto notch or manual notch filter that works at the IF stage is more effective.

4.6.2 Noise Blanker NB2 (IF Processing)

We explained in the section of RX circuity that TS-590S is equipped with two noise blankers, NB1 and NB2, and that NB2 is a digital noise blanker based on the DSP. In the following section, we will explain NB2 in detail.

A noise blanker is designed to remove pulse noise at the IF stage to reveal the target signal suppressed by the AGC that was activated by the pulse noise. In addition to the analog noise blanker (NB1), the TS-590S is equipped with a newly developed digital noise blanker (NB2) so that the user can choose the blanker that is more effective for the type of noise encountered and the RX conditions.

NB2 employs a newly developed envelope tracking method, making it effective against noise that defies the tracking of the analog noise blanker (NB1).

Unlike the analog noise blanker, the procedure of NB2 is not a simple blanking of pulse noises from the target signal. NB2 removes pulse noises by tracking the RX signal level to automatically detect pulses and comparing the level of the pulses and of the target signal excluding the pulses to attenuate the pulse parts appropriately. Hence, even a long pulse can be processed without seriously degrading the target signal.

Figure 4-11 shows the time waveform of a signal containing pulse noises and a CW signal while NB2 is inactive, and Figure 4-12 shows the time waveform of the same signal while NB2 is active.

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CONTENTS

TS-590S

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Contents TS-590S About Copyright Copyright of this Manual and SoftwareAbout Trademarks and Intellectual Properties Other RestrictionsContents Optional Accessory Product Planning Objectives Development Spirit Reception Type of ConversionReception Block diagram Down Conversion Down ConversionMCF Hints and Tips Comparison of Bandpass Characteristics of MCFs Measurement Conditions Up Conversion Dynamic Range in the 50 MHz BandRX Auxiliary Circuits CN101 CN102 CN103 Transmission Kenwood Traditional Transmitting CircuitryIf Circuits FET Final CircuitTransmission Remote Connector High-speed Relay-controlled Antenna TunerMenu N o or N o 1 or DRV Terminal Transmission Output Characteristics of DRV Terminal at 136 kHz and 0 dBm Transmission Comparison C/N Characteristics Local OscillatorDSP Multipurpose 32-bit Floating Point DSPAdvanced AGC Control via if Digital Processing DSPControl Block Diagram of IF-AGC Interference Elimination Within AGC Loop Digital if FilterTypes of Digital if Filters LOW CUTManual Notch Filter and Auto Notch Filter Digital Noise Blanker NB2 Demodulation Modulation Beat Cancel AF Processing DSP-based Auxiliary Circuits for RXNoise Blanker NB2 if Processing Overview of Noise Reduction 11 NB2 Inactive4 NR1 Spectral Subtraction Method AF Processing 13 Conceptual Scheme of NR1 Based on Spectral SubtractionAudio spectrum components swamped by noise 5 NR1 Based on a Line Enhancer AF Processing 16 NR1 Line Enhancer Method Inactive6 NR2 AF Processing 18 NR2 InactiveDSP-based Auxiliary Circuits for TX Speech Processor AF ProcessingDSP-based Auxiliary Circuits Common to TX/RX TX Equalizer & RX Equalizer AF ProcessingSoftware Enhancing Operating Pleasure Extended Data-mode Related FunctionsDrive Out Software Enhancing Operating PleasureSingle Button Toggles if Filters between a and B Operation in the 135 kHz BandMode Selection of Built-in Electronic Keyer Power-on MessageDouble Function Keys and Hold Time Selection Quick Memory Function Cross Tone FunctionPF Keys MIC CN Expansion of Voice Guide Function Optional VGS-1 Required Easy Updating of Firmware Projections on the Rear PanelA Sketch of the TS-590S Structural Features CoolingStructural Features Heat Sink Section LCD Amber and GreenMain Control Knob Main Control KnobSystem Configurations Controlling TS-590S from a PC using the COM ConnectorExpansive Application Software Windows Related SoftwareControlling TS-590S from a PC using the USB Connector ConnectionControlling TS-590S from a PC on a Remote Site Software HardwareBasic Specifications Inherited from ARCP-480 User InterfacesKNS Kenwood Network Command System Menu FunctionKNS Welcome Message Visual Scan Audio EqualizerBasic Specifications Inherited from ARHP-10 ARHP-590 Amateur Radio Host Program FreewareNew ARUA-10 USB Audio Controller Freeware Disabling AF Gain Control from ARCP-590Setup Basic FunctionsOperation Adjusting Volume Automatic Execution when Windows StartsStarting and Stopping ARUA-10 New ARVP-10H Amateur Radio VoIP Program Freeware 12 Main Window of ARVP-10HSetup of ARVP-10H Host Station Making ARVP-10H host station Online or OfflineSetup of ARVP-10R remote station Connecting and Disconnecting ARVP-10R Remote StationNew Virtual COM Port Driver 16 Device ManagerOptional Accessory PS-60 Regulated DC Power SupplyRectifier Circuit Comparing Rectification WaveformsPage Revision 1.00 May 15

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