Ranger RCI-6300F HP Chapter Alignment, Required Test Equipment, Alignment Procedures

Page 16

RCI-6300F HP RCI-6300F TB

CHAPTER 4

ALIGNMENT

4.0 REQUIRED TEST EQUIPMENT

 

! DC Power Supply (13.8VDC, 20A)

& Frequency Counter (100 MHz)

" RF Wattmeter (25~60 MHz, 100W)

' RF Signal Generator (100 MHz)

# Multimeter (Digital)

( Automatic Distortion Meter

$ Automatic Modulation Meter

) Oscilloscope (50 MHz)

% Audio Signal Generator

* Sinad Meter

4.1 ALIGNMENT PROCEDURES

This transceiver has been aligned at the factory and does not require any adjustments at installation. The required test equipment listed are used for the test setup or alignment shown in Figure 4-1 Transmitter Test Setup and Figure 4-2 Receiver Test Setup. These test setup are used in part or total during the following adjustments and refer to Figure 4-3 for adjustment location.

4.1.1 PLL ALIGNMENT

ITEM

U.U.T. SETTING

ADJUST

MEASUREMENT

 

 

POINT

 

VCO Voltage

Disconnect the “short PCB” from TP7, TP8

 

 

 

and TP9.

 

 

 

Set radio to Fr Pool 6, CH 40 AM RX mode.

 

 

 

Set the +10KHz switch to OFF position.

L14

 

 

Connect Multimeter to TP2.

6.5 VDC ± 0.1

 

Connect Oscilloscope to TP3.

L15

Maximum Output

 

 

 

and Balance. (CH 1

 

 

 

& CH 40)

 

 

 

 

AM Frequency

Set radio to Fr Pool 1, CH 1 AM RX mode.

L20

17.5500 MHz + 20Hz

 

Set radio to Pool 6, CH 40 AM RX mode.

L17

18.9600 MHz + 20Hz

 

Connect Frequency Counter to TP3.

 

 

 

 

 

 

TX Frequency

Set radio to Fr Pool 1, CH 1 AM TX mode.

VR7

17.5500 MHz + 20Hz

 

Connect Frequency Counter to TP3.

 

 

 

 

 

 

AM OSC

Set radio to Fr Pool 1, CH 1 AM TX mode.

L23

10.6950 MHz + 20Hz

 

Connect Frequency Counter to TP5.

 

 

 

 

 

 

4.1.2 TRANSMITTER ALIGNMENT

- 15 -

Image 16
Contents Ranger Table of Contents Chapter Specifications ChapterOperation Mode Switch Echo SwitchRF Power Control DIM/BRT SwitchRF/SWR Switch 18. NB/ANL/OFF Switch19. R.B./OFF Switch Channel DisplayFrequency Chart Channel FR. Pool PowerAntenna Microphone Procedure to Transmit Operation Procedure to ReceiveAlternate Microphones and Installation Circuit Wire MIC CableDescription PLL Circuit Receiver CircuitTransmitter Modulation Circuit Transmitter Amplifier CircuitPage Page Page RCI-6300F HP / RCI-6300F TB Echo Board EB-99 Circuit Diagram Alignment Procedures PLL Alignment T. Setting Adjust Measurement PointChapter Alignment Required Test EquipmentT. Setting Adjust Measurement Point Receiver Alignment T. Setting Adjust MeasurementVR9 VR5Transmitter test setup VR1Receiver test setup Main PCB Adjustment Location Chapter Maintenance Chapter DiagramsPrecautions Fuse ReplacementOrdering Replacement Parts Parts ListGeneral Rotary SW P.C.B Diode 1SS355Rotary SW Remark Left Component Side Blue Right Copper Side BlueJumper Wire ANT P.C.BEDHM0198SY Diode HSM198S EDMA0028TY Diode MA28T RF Coil C3RH0610Power P.C.B R 1K OHM Between C901Ground Reference Number Ranger Part DescriptionNumber Copper Side Spring CoilBead Coil Choke CoilBand Switch P.C.B JP3MIC/RF VR 1KB/1KAWire CONN/H 3PIN Remark Copper Side Blue Part ListReference Number Ranger Part Description Remark MIC P.C.BPage Counter P.C.B YNRG0GX3SPIC TC4093BFN 14PIN Choke Coil 1000UHLED Display P.C.B Display PCBLED Display TX/RXPage CK510AB7R IC1IC NJM4558M 8PIN IC2Page Part List RCI-6300F HP Main PCB VR9 RCI-6300F HP MISC. Parts Part List MA27W-A TP7-TP8,TP8-TP9 RCI-6300F TB MISC. Parts RCI-6300F HP Schematic Diagram RCI-6300F Turbo Schematic Diagram RCI-6300F HP Explode Drawing RCI-6300F Turbo Explode Drawing  Copyright 1999, Ranger Communications INC

RCI-6300F TB, RCI-6300F HP specifications

The Ranger RCI-6300F HP and RCI-6300F TB are highly regarded models in the world of amateur radio, designed for an optimal user experience and powerful performance. These transceivers stand out due to their robust capabilities, making them suitable for both experienced operators and newcomers alike.

One of the key features of the RCI-6300F HP is its reliable power output. Operating at up to 300 watts, this model ensures a strong and stable signal, making it an excellent choice for long-distance communications. The RCI-6300F TB, while slightly less powerful, still delivers a solid performance with its own set of impressive features. Both models are equipped with an advanced Linear Amplifier that enhances their overall transmission quality.

The design of the RCI-6300 series showcases a user-friendly interface with an intuitive layout. The large front panel display provides essential information at a glance, including frequency, mode, and signal strength. The controls are ergonomically placed, allowing for easy adjustments even during operation. With a variety of modes available—including AM, FM, SSB, and CW—users can choose the best setting for their communication needs.

An innovative technology incorporated into the RCI-6300F models is the built-in Automatic Noise Limiter (ANL) that effectively reduces background noise, improving clarity and ensuring that conversations remain intelligible. The dual receive capability allows operators to monitor two frequencies simultaneously, enhancing situational awareness on the airwaves.

The RCI-6300F series also includes advanced filtering options. The variable bandwidth filter enables users to adjust the audio response, tailoring signals to their preferences. Additionally, the models feature an internal SWR meter, providing real-time feedback on the standing wave ratio to help optimize antenna performance.

Constructed with durability in mind, the Ranger RCI-6300F HP and TB are designed to withstand the rigors of regular use. This ruggedness, coupled with advanced thermal and overload protection, makes these transceivers reliable companions for any operator.

In conclusion, the Ranger RCI-6300F HP and RCI-6300F TB models offer a treasure trove of features and technologies, elevating the user experience in amateur radio communications. With their powerful output, advanced filtering, and user-friendly design, they stand out as exceptional choices for enthusiasts looking to enhance their radio operations.