Raymarine Ray48 Technical Description, General, Control Section, PLL Phase Lock Loop Circuit

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SECTION 4

TECHNICAL DESCRIPTION

4.1 GENERAL

The Ray48 can be considered as consisting of two major sections. They are:

The Control Circuitry (considering of the front panel controls, the LCD display, control CPU)

The Transmitter/Receiver/PLL circuits

4.2THE CONTROL SECTION

The heart of the control section is the CPU IC201, located on the Front PCB. The CPU controls all of the following items:

Controls the Squelch circuit by detecting a busy signal from the second IF circuit IC5.

Generates a beep tone when a key is activated on the keyboard.

Mutes the transmitter modulation circuit when receiving.

Controls the output power of the transmitter High/Low.

Controls the dividing ratio N of the PLL circuit.

Switches On/Off the transmitter power.

Mutes AF audio.

Detects a weather alert signal (when in Monitor Mode).

Controls the LCD display.

4.3THE TRANSMITTER/RECEIVER/PLL SECTIONS

In reading through the following circuit descriptions, it may be helpful to refer to Figure 4-1 Block Diagram of the TX/RX/PLL circuits.

4.3.1 PLL (Phase Lock Loop Circuit)

The PLL circuit is the frequency synthesizer in the Ray48.

The reference frequency of 12.8 MHz is provided by crystal XTL1 and IC3. IC3 contains the reference oscillator (12.8 MHz) circuit, the phase comparator, the program counter and the phase detector. The 12.8 MHz reference signal is divided by 512 in the program counter in IC3 to obtain a 25 KHz reference signal. The dividing ratio is determined by CPU IC201. The VCO output from oscillator Q4 is amplified by buffer amplifier Q3, and returned to IC3 and is divided by the dividing ratio N to obtain a 25 KHz signal. N for 1N in IC3 is determined by CPU IC201. Both of these 25 KHz signals are fed into the phase comparator circuit of IC3.

The phase detected signal, obtained by comparing the two 25 KHz signals the same phase. When this condition is met, the PLL circuit is locked. If the two signals have a large phase difference, the PLL is unlocked. In this condition, the unlocked signal is fed to CPU IC201 from IC3 and the transmitter is compelled to stop.

The VCO output from Q4 is fed to the TX amplifier Q2 and the first RX mixer Q19 through buffer amplifier Q3.

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Contents Ray48 Important Notice PurposeTable of Contents Appendix Section MaintenanceTechnical Description SectionGlossary of Terms General Description Equipment FeaturesIntroduction Unpacking and Inspection InstallationPlanning the Installation Optional AccessoriesTypical Mounting Method Flush Mounting Typical Mounting Methods1104.33 190.74 1515.94 853.03 1606.29 1957.66 1204.72 Electrical Connections DC Power and External Speaker ConnectionsExternal Speaker Connections Power Cable LengthAntenna Mounting Suggestions Antenna ConnectionsGrounding Controls and LCD Display OperationsControls Volume Control On/Off1W Scan WX ALT MON INT MEM LCD DisplayOperating Procedures Scan Modes To Select a Weather Channel16 Plus priority Channel Channel MemoryPlus priority Channel Master ResetMonitor Mode Working ChannelControl Section PLL Phase Lock Loop CircuitTechnical Description GeneralReceiver Circuit Transmitter CircuitTransmitter SpecificationsReceiver Operating Requirement Radio DimensionsRay48 Block Diagram Page Ray48 Assembly Drawing Page How to contact Raymarine MaintenancePage VHF Marine Radio Channels and Frequencies Ray48 Marine Channels Frequency Tables66A International VHF Marine Radio Channels & Frequencies Noaa Weather Radio Frequencies156.525 Digital Selective Calling for Distress and Safety VHF Marine Channel Usage Guide and Licensing Requirements AppendixPage Usage Guide Your ship is sinking, or on fire EmergencyMonitoring Channel 16 & Working Channel Intership SafetyNavigation Coast GuardAre used for vessels Traffic service onPort Operations Channels 11, 12, 13Marine Operator CommercialEnvironmental Emergency signalsState Control WeatherAlpha
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