CTI.ComTec PLA-800 Power Amplifier CTI.ComTec Serial Number 1010 PSL-1000 Power Supply Serial Number 1010 Test Report for Grant of Certification For Use in Part 97 Amateur Service Under The Rules of the Federal Communications Commission PLA-800 USERS MANUAL Appendix C March 16, 2002 Submitted by:
CTI.ComTec, Inc. 1 Classic Court, North Palm Coast, Florida 32137 386-445-5545 COPY OF SETUP AND OPERATING INSTRUCTIONS APPENDIX C Please Read Before Operating Caution: Lethal High Voltage Present Before operating both the PLA 800 and the PSL 1000, certain precautions should be taken. The PSL 1000 Power Supply generates over 2000 volts Direct Current at a current capacity of over.6000 amperes. It also generates 350 Volts Direct Current at .150 amperes. Both voltages are Lethal and will cause death upon contact with the human body. Although there are several built-in safety features to protect YOU from exposure to high voltage, the following steps whould be followed at all times. NEVER OPERATE, EITHER THE PLA 800 OR PSL 1000, REMOVED FROM THEIR INDIVIDUAL ENCLOSURES. NEVER REMOVE ANY CONNECTORS FROM EITHER UNIT WHILE POWER IS APPLIED. NEVER INSERT METAL OBJECTS INTO THE COOLING VENT HOLES ON TOP OR BELOW EITHER UNIT, WHILE POWER IS APPLIED. WARNING THE VOLTAGES USED IN THIS EQUIPMENT ARE SUFFICIENTLY HIGH TO ENDANGER LIFE. ALL PERSONNEL ARE ADVISED TO BE THOROUGHLY FAMILIAR WITH THESE UNITS BEFORE TROUBLESHOOTING THEM IN A POWER-ON CONDITION. ALWAYS USE CAUTION. INTRODUCTION The PLA-800 Linear Amplifier uses a pair of 4CX250s tetrodes as final amplifier tubes. These tubes have been used and are still used today by the military because of its compact size and ability to put out power ina compact space. They also have the ability to amplify signal from .1 MHz to 500 MHz. Therefore their power bandwidth is approximately 500 MHz. The 4CX250Bs have a control screen grid. The voltage and regulated current for the screens are supplied by the PSL 1000 Power Supply. Using screen voltage regulation, the grids have the advantage of self-limiting the current flow to the plates of the tubes. As a result, the tubes cannot be driven into saturation causing distortion. The maximum allowable screen current is regulated by the power supply. Once that point of current demand is reached, the screen limits the plate current flow to its maximum. Therefore, and ALC circuit, to prevent driver overload, is not required. The maximum plate and cathode current flow is measured by the 0-500 ma. meter on the front panel. The screen current only, is measured by the 0-50 ma. meter located also on the front panel. The band switch and plate and loading capacitors are also located on the front panel. The capacitors use a 6:1 vernier ball drive to give smooth, easy tuning. Also located on the front panel are the two lights indicating filament voltage on and plate current on. The filament supply is contained in the PLA-800 and is protected by the 3 AG fuse next to the indicator light. These bulbs are tungsten elements, with a life of 50,000 hours. The plate on and off switch is located in the middle of both lamps. Both the amplifier and power supply are inter-locked for your safety. The removal of the FOUR (4) thumbscrews will allow you to slide the units forward and out of their respective enclosures. NEVER open either unit with the AC and DC power applied. As an added safety feature, the power supply has a mechanical shorting rod, which, upon sliding the unit out of the enclosure beyond 1/4 of an inch, will ground the high voltage capacitor bank. This is done for your safety and should NOT be defeated. Built into the PSL 1000 power supply is a maximum current overload circuit. If more than 600 ma. is delivered to the load, the circuit will activate, opening the plate relay and removing the high voltage. At the same time, the current overload indicator lamp on the front panel of the power supply will light and an audible alarm will sound. To reset the high voltage back, simply push the reset button on the panel. The power supply is also equipped with a voltmeter allowing you to monitor the high voltage (0-500 vdc) and the screen voltage (0-500 vdc). Under normal loading conditions, the PLA-800 will deliver 600 watts key down or 1200 watts PEP output. However, the key down power level should not be maintained for more than 10 seconds. In cases where RTTY or AM is used, the amplifier should be operated at one-half power level. 1200 watts PEP can be operated at any time. Tuning Procedure On the rear panel of the PLA-800 you will see the Power Output Connector or RF Out
(SO239), a High Voltage connector, a Control Voltage Connector, a Push-to-Talk jack, a Ground Connector, and the Power Input Connector (SO239) or RF In. Connect the Control Voltage Connector and High Voltage Connector between the amplifier and power supply. The power supply has the appropriate mating connectors along with the AC input power plug. The AC input power can be adapted to 115 VAC or 230 VAC service (See power change over section). Apply the RF in coax connector from your transceiver. A transceiver with a variable output control should be used. That is, one which can vary the amount of drive power to the amplifier. Set your drive control on the transceiver to minimum. Connect the PTT
(push-to-talk) connection using the RCA jack to your transceiver. This will put the amplifier into the circuit when you transmit from your transceiver. In the receive mode, the amplifier will be in by-pass. Connect a coax line from the RF OUT to your tuner or directly into your antenna load. An output power watt meter should be used, in-line with the antenna. This should be used to tune the amplifier correctly. Upon completion of the above, double check all connections to make sure they are installed correctly and tightly. Apply AC power by switching on the Main Power Switch on the power supply front panel. The green indicator light will illuminate and the yellow filament light on the amplifier will illuminate. Be certain that the plate switch on the amplifier is OFF. You will hear the fans in the amplifier also begin to operate. Let the amplifier warm up for approximately 60 seconds. This will ensure that the filaments of the 4CX250Bs will come up to temperature. After 60 seconds of warm up, turn on the plate switch located on the front panel of the amplifier. Observe the meter readings on the amplifier. The plate meter should come off of the Zero position by about 10 ma. and the screen current meter should read 0 ma. These are the resting currents for both circuits without drive applied. Select the desired band for both amplifier and driver. Simply turn the band switch on the amplifier to the desired band. Place the driver (transceiver) in the CW mode. If you have a transceiver with an Auto Tune Control, press the auto-tune function. With the key down on the transceiver, begin to increase the drive control on the transceiver and bring the plate current on the amplifier to approximately 300 ma. Begin tuning the plate turning control and the loading control fir a maximum reading on the power watt meter. If you have a tuner with an SWR meter in the circuit, be sure to tune the SWR for minimum. Remember, the maximum output with minimum SWR. Continue to tune at this power level until you are confident that the amplifier is adjusted properly. It is possible to tune the amplifier too heavily. Continue to adjust the output for maximum by alternating between the Plate Tuning and Loading Controls. Do NOT exceed the 300 ma. current on the plate meter in CW. DO NOT DRIVE AT THIS CURRENT LEVEL FOR MORE THAN 10 SECONDS AT A TIME. Release the carrier for 10 seconds and then key down again to optimize output. Once at maximum output, remove the drive and let the amplifier cool down for about 10 seconds. Increase the drive level on your exciter to show a 500 ma. reading on the Plate Meter. Screen Current should be at 30 ma. If the screen current is showing a negative downturn on the meter, the plate loading is too heavy. Simply back off the loading control until the screen current reads 30 ma. Tetrodes do exhibit negative screen current. This is OK. Depending upon the load value, it is possible to show negative screen current with maximum output. You should be at the maximum output of the amplifier. If there is excessive drive and plate current, the overload circuit will activate. Reset it by pushing in on the reset button on the Power Supply. At this point you should be ready to transmit SSB or CW. Place your driver into SSB and modulate normally. You will see the Plate Meter kick up to 500 ma. and the output will exceed 1200 watts PEP. If RTTY is used, you must reduce the plate current to 250 ma. as a maximum operating plate current. Bias Adjustment On the rear panel of the PLA-800 is a RED square push button and an ORANGE colored test point jack. To adjust the bias on the 4CX250Bs follow the steps below. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Remove the high voltage RED connector to the amplifier on the rear panel. Place the PLATE SWITCH on the front panel to OFF. Place a multimeter in DC Volts position and on a scale of 0-2volts. Insert the negative lead of the multimeter into the orange test point jack. Ground the positive lead of the multimeter to chassis ground on the amplifier. Turn the PSL 1000 Main Power Switch to ON. Push in on the RED square button switch and read the bias voltage on the multimeter. To adjust the bias voltage, use a straight blade screwdriver in the pot control on the rear of the amplifier, next to the test point jack. You must continue to push in on the red switch to adjust the bias. The correct voltage for the 4CX250Bs is 57 volts DC. Once adjusted, release the red button switch and the bias voltage will climb to the cutoff voltage which will be above 100 Volts DC. The bias is now adjusted for AB1 service and the amplifier can be operated. Power Change Over Both the PLA-800 and PSL 1000 can be used for 115 volt C/50-60 Hz operation or 230 volts AC/50-60 Hz operation. The units are supplied for 115 VAC operation unless specifically requested. Change over to 230 VAC is simple. 1. 2. 3. Remove the PLA-800 from its enclosure by removing the four (4) thumbscrews on the front panel and slide the unit out by pulling on the front grab handle. Turn the PLA-800 over exposing the underneath chassis compartment. In the lower right rear, from the front panel end, there is a four (4) pin terminal block with push on connectors. You can count the pins on the block from 1 (one) through 4 (four) in either direction. There are two black jumpers connecting pins 1, 2, 3, and 4. Remove the two jumpers from their respective pins by grabbing the insulated portion of the connector pins. Replace ONE jumper back onto the terminal block, by pushing each end of the jumper onto pins 2 and 3. This completes the change over of the PLA-800 to 230 VAC. For the PSL 1000 Power Supply change over follow these steps. 1. 2. 3. 4. 5. Remove the PSL 1000 from its enclosure in the same way as the PLA-800. Turn the power supply over, exposing the underneath chassis. At the bottom left rear of the chassis is the same type four (4) pin terminal block as in the PLA-800. Remove the two (2) jumpers and replace one (1) jumper to pins 2 and 3. Find the push on the terminal connected to chassis ground (green wire with push-on terminal). Connect it to terminal 2 as well. (The same procedure was used with the PLA-800 with the exception of the ground push-on connector.) Next, you will change over pins located in the front underneath portion of the power supply. You will see four (4) breaker overloads. Two (2) for 115 Volt AC (10 AMP) and two (2) for 230 Volt AC (5 AMP). Pull the WHITE WIRE connector from the 10 AMP Breaker and push it onto the 5 AMP Breaker. Do the same for the BLACK WIRE connector. Make sure that the white wire is attached to the breaker with the white wire already attached on the breaker. The same for the black wire to the breaker with the black wire already attached. This completes the internal change over for both the PLA-800 and the PSL 1000. Return the units back to their respective enclosures and replace the four
(4) thumbscrews securely. Finally, replace the male connector on the line cord with an appropriate 230 VAC plug. Since there are many types of connectors for primary power, it is recommended that you consult your local electrician or if you are familiar with an existing plug arrangement already in operation, use the plug required. Make sure that the GREEN wire in the line cord, normally used for ground at 115 VAC operation, now becomes the neutral for 230 VAC operation. Parts List Model PLA-800 Symbol Description C1 C2 C3 C4,C5,C6,C7,C8 C9,C10,C11,C18, C19 C12 C13 C14 C15,C16,C17 Capacitor, .01 uf 600VDC Capacitor, 37-250pf variable air Capacitor, 65-1500pf variable air Capacitor,
.001uf@1000VDC Function RF Coupling Plate tune Output Tune CTI Part #
C101B 73-1-80-37 M73 73-1-32-65 M73 RF Decoupling Ceramic
.001/1000 Capacitor, .001uf@12,500VDC RF Blocking Capacitor, .01uf@5000VDC RF Decoupling Oil .002/5k Capacitor, 33uf@450VDC Capacitor, .01uf@1000VDC RF Decoupling Ceramic .01/1000 Mylar .001/12.5K CTE1.33.450 Bias Filter R1 Resistor, .25ohm/25watts R2 R3 R4,R5,R8 R6,R7 R9 R10 Resistor, 25Kohm/10watts Resistor, 1.5K/25watts Resistor, 1.0K/2watts Resistor Variable, 5.0K/2watts Resistor 3.0K 3watts Resistor, 1.0ohm 1/2 watt R11,R12,R13,R14 Resistor, 100ohm 1/2 watt RC .25GF Filament drop/6V Screen Bleeder RC25KGF Relay Dropping RC 1.5KGV RC 1.5KGF Bias Dropping Bias Adjust RC 5.0KGV Lamp Dropping RC3.0KGF3 RC 1.0OKG Screen Meter Shunt Limiting Resistor RC 100 D1,D3 D2 Diode Silicon,800VDC@1.0a Diode Bridge,200VDC@1.0a Lamp Rectifier DS4007 Bias Rectifier BS 2001 RL1,RL2 DPDT Relay12VDC30aCont. Bias and PTT PBT92S11D22-12 M1 M2 RFC2,3 RFC1 LP1 LP2 F1 S1 Meter, 0-500 ma. DC Meter, 0-50 ma. DC Total DC current Screen Current H635-.05 H635-.50 RF Choke2.5mh@.15a RF Choke 120uh@1.5a RF Decoupling RFCH 2.5MH Plate Choke RFCH 1201 Lamp Indicator 6.0V Lamp Indicator 60V Fil. Indicator Plate Indicator CT14-030.006 CT14-030.060 Fuse 3AG/3.0a Filament Fuse CTFH-3AG Rotary7 pos. sw. 4,500 Volts Plate Band Sw. CTR802A07 Symbol Description SPST 250V/10a SPST Microswitch Coil 14.0-24.5MHz Coil 1.5-7.0MHz Coil 85uh S2 S3 L1 L2 L3 J1,J2 SO 239 Coax Connector J3 J4 P1 P2 T1 T2 Female Chassis Connector Female Chassis Connector Jones10 Male Chassis Connector 4 Pin Push-On Strip 115/230VAC Pirm. 6.3VAC Sec 115VAC/6.3VAC CTI Part #
CTSP-10 Function Plate ON?OFF Switch Interlocking SW Final Tank Coil TC-6-10 Final Tank Coil TC-6-20 Input Load Coil LC-.5-85 Input/Output Coax High Voltage Connector RCA/PTT SO239 CTM-7500M RCA Phono Control interconnector Primary Power Selector Filament Transformer Bias Transformer V1, V2 4CX250B Tetrodes Power tubes CT4CX250B BL1,BL2 12VDC 2.38Sq. Fans 17cfm Cooling tubes Z1, Z2 50 ohm, 2 w/3 turns, 1/2 dia. HB-12 12VDC@1.5a Power Supply Parasitic Surpressor Relay and Fan power CTI.ComTec, hereinafter referred to as CTI, warrants the equipment (except electron tubes, fuses, lamps, batteries and articles made of glass or other fragile or other expendable materials) purchased hereunder to be free from defect in materials and workmanship under normal use and service, when used for the purposes for which the same is designed, for a period of one year from the date of delivery F.O.B. factory. CTI further warrants that the equipment will perform in a manner equal to or better than the published technical specifications as amended by any additions or corrections thereto accompanying the formal equipment offer. CTI will replace or repair any such defective items, F.O.B. factory, which may fail within the stated warranty period, PROVIDED;
1. 2. 3. 4. That any claim of defect under this warranty is made within sixty (60) days after discovery thereof and that inspection by CTI, if required, indicates the validity of such claim to CTIs satisfaction. That the defect is not the result of damage incurred in shipment from or to the factory. That the equipment has not been altered in any way either as to design or use whether by replacement parts not supplied or approved by CTI, or otherwise. That any equipment or accessories furnished but not manufactured by CTI, or not of CTI design shall be subject only to such adjustments as CTI may obtain from the supplier thereof. Electron tubes* furnished by CTI, but manufactured by others, bear only the warranty given by such other manufacturers. Electron tube wsarranty claims should be made directly to the manufacturer of such tubes. CTIs obligation under this warranty is limited to the repair or replacement of defective parts with the exception noted above. At CTIs option, any defective part or equipment which fails within the warranty period, shall be returned to CTIs factory for inspection, properly packed with shipping charges prepaid. No parts or equipment shall be returned toCTI, unless a return authorization is issued by CTI. If, for any reason, any equipment is returned for a full refund, there will be a 20% restocking charge deducted from the selling price. No warranties, express or implied, other than those specifically set forth herein shall be applicable to any equipment manufactured or furnished by CTI and the foregoing warranty shall constitute the Buyers sole right and remedy. In no event does CTI assume any liability for consequential damages, or for loss, damage or expense directly or indirectly arising from the use of CTI products, or any inability to use them either separately or in combination with other equipment or materials or from any other cause.
*Electron tubes also includes semi-conductor devices PROCEDURE FOR RETURN OF MATERIAL OR EQUIPMENT Should it be necessary to return equipment or material for repair or replacement, whether within warranty or otherwise, a return authorization must be obtained from CTI prior to shipment. The request for return authorization should include the following instructions:
1. 2. 3. 4. 5. Model Number of Equipment Serial Number of Equipment CTI Part Number Nature of defect or cause of failure The contact or purchase order under which equipment was delivered PROCEDURE FOR ORDERING REPLACEMENT PARTS When ordering replacement parts, the following information must be included in the order as applicable:
1. 2. 3. 4. Quantity required CTI Part Number The Equipment Model Number in which part(s) are used Brief Description of the Item PROCEDURE IN THE EVENT OF DAMAGE INCURRED IN SHIPMENT CTIs Warranty specifically excludes damage incurred in shipment to or from the factory. In the event equipment is received in damaged condition, the carrier should be notified immediately. Claims for such damage should be filed with the carrier involved and not CTI. All correspondence pertaining to Warranty Claims, return, repair, or replacement and all material or equipment returned for repair or replacement, within Warranty or otherwise, should be addressed as follows:
CTI.ComTec, Inc. Engineering Services Department 1 Classic Court North Palm Coast, FL 32137