====== Technical Profile: Pride "Amatuer" Dual-Tube Amplifier ====== ===== 1. Unit Identification ===== * **Manufacturer:** Pride Electronics (California). Hy-Gain and Sonar Communications also used similar hardware * **Model:** Likely a **DX-3000** or a high-power variant of the **KW-ONE**. * **Production Era:** Late 1970s. * **Defining Characteristics:** * **"AMATUER AMPLIFIER"** typo on the brushed metal faceplate. * Red rocker switches for Power/Meter functions, riveted directly into the faceplate. * Rectangular chassis wider than the standard DX-300/KW-1 "cube" design. * Evidence of a missing adhesive-backed nameplate on the lower front panel. {{ :kg7vfo:20251220_180432.jpg?nolink&600 |}} ===== 2. Internal Architecture ===== * **Vacuum Tubes:** Two (2) **4CX250B** (or similar) ceramic power tetrodes mounted in parallel. * **Cooling:** Centrifugal squirrel-cage blower designed for a pressurized plenum. * **Power Supply:** * Massive high-voltage plate transformer showing surface oxidation. * Separate filament/control transformer. * **RF Deck:** * Large ceramic multi-tap tank coil for band switching (80M through 10M). * Dual variable capacitors for **PLATE** and **ANT LOAD** tuning. * Parasitic suppressors (resistor/inductor combos) connected to the tube anodes. ===== 3. Current Fault Analysis ===== The unit reportedly operates but is limited to **100 Watts** output. Potential "Cold Test" targets include: ^ Component ^ Symptom ^ Suspected Issue ^ | Parasitic Suppressors | Darkened/Cooked appearance | Resistor failed open; choking RF output path. | | Input Swamp Bank | Resistor cluster near input | Drifting high or incorrect bypass "hack" limiting grid drive. | | Mode/Tune Logic | Stuck in "Tune" or "AM-1" | Internal relay or rocker switch failing to engage high-bias state. | | Tube Health | Visual debris in cooling fins | Tubes may have "gone soft" due to overheating. | | Transformers | Surface rust on laminations | Potential insulation breakdown from moisture. | ===== 4. Testing Objectives (Cold State) ===== * **Objective 1:** Use LCR meter to verify parasitic suppressor resistors (target ~47-100 Ohm). * **Objective 2:** Check input attenuator resistors for value drift. * **Objective 3:** Inject low-level RF via signal generator to trace signal loss through the band switch and grid drive circuit. * **Objective 4:** Manually inspect blower rotation and clear debris from tube cooling fins. * **Objective 5:** inspect and test passives under chassis. * **Objective 6:** Perform out-of-circuit testing of each tube, filament characteristics, micro-mhos where possible {{gallery>:kg7vfo}} later on * hot testing at lowered voltages with dummy load, measurement of all key power supply points and cathode, grid, suppressor and plate on the tubes as well as output and tuning. * hot testing ramped up out of scope (for now): * resistor bypass switch * 240V operation ====== Technical Analysis: FM Mode Implementation ====== The presence of a dedicated **FM** position on an HF amplifier of this era is highly unusual and provides specific insights into its design and origin. ===== 1. Technical Implications ===== * **Efficiency and Bias:** The FM setting likely switches the **4CX250B** tubes from Class AB (linear for SSB) into **Class C**. * **Duty Cycle:** Class C operation is non-linear but much more efficient, allowing the tubes to handle the 100% duty cycle (constant carrier) of FM without overheating. * **Voltage Regulation:** In FM mode, the screen grid voltage and plate bias are adjusted to maximize saturation rather than linearity. ===== 2. Market Identification ===== * **Export Market Focus:** While FM was rare for US hams on HF in the 1970s, it was popular in the European and South American "Export" markets for 10-meter and 11-meter operations. * **Pride Fingerprint:** This specific mode sequence (**AM-1, AM-2, SSB, CW, FM**) is a definitive characteristic of late-production **Pride Electronics** units. * **Competitive Differentiation:** Brands like **Sonar** and **Hy-Gain** (Afterburner) typically lacked a dedicated FM tap on their HF linear units. ===== 3. Relation to 100-Watt Output Fault ===== * **Switch Failure:** If the Mode switch has carbon tracking or mechanical wear, the unit may be "latched" into a low-bias or **TUNE** state internally. * **Logic Conflict:** If the bias relay does not engage the "High" voltage/current state when moving from FM to SSB, the output will hit a hard ceiling regardless of drive levels. ===== 4. Diagnostic Notes (Cold Testing) ===== * **Task:** Verify continuity across the Mode switch wafers for each setting. * **Focus:** Inspect the bias resistors connected to the FM/AM-1 positions for signs of thermal drift. ===== AM-1 vs. AM-2 Operational Differences ===== * **AM-1 (Low Power):** Designed for a "dead key" carrier of ~100W; used for tuning or low-drive AM. * **AM-2 (High Power):** Enables full plate current for maximum RF swing; requires high airflow. * **Switching Logic:** Changes the bias voltage on the 4CX250B grids and may switch plate voltage taps.