PLL Circuits, 7 1LO PLL Circuit, 8 2LO PLL Circuit

The passed signals are then applied to the RF amplifier cir- cuit.

4-4-2 1200 MHz RF CIRCUIT (for RX)

Received signals from the transmit/receive switching circuit are passed through the high-pass filter (L285–L287, L289, C297–C300) and pre-amplifier (Q281) and are applied to the RF amplifier circuit (Q271) via the band pass filter circuit (FI281).

The amplified signals are then passed through the another bandpass filter (FI271) to suppress unwanted signals. The filtered signals are then applied to the 1st mixer circuit (IC241).

4-4-3 1200 MHz 1ST/2ND MIXER CIRCUITS (for RX)

The 1st/2nd mixer circuits convert the received signals into a fixed frequency of the 10 MHz IF signal with a PLL output frequencies. By changing the PLL frequency, only the desired frequency will pass through a filter at the next stage.

The filtered signals from the bandpass filter are mixed with 1st LO signals at the mixer circuit (IC241) to produce a 1st IF signal (243.95 MHz). The 1st LO signals (996.0 MHz–1076.1 MHz) are PLL output frequency, which comes from the 1st LO VCO circuit (Q451, Q452).

The 1st IF signal is passed through the bandpass filter (FI241) to suppress unwanted signals, and then applied to the 2nd mixer circuit (Q221).

The applied signal is mixed with 2nd LO signal coming from the 2nd LO VCO circuit (Q731) to produce a 10.85 MHz [Main], 10.95 MHz [Sub] 2nd IF signal. The 2nd IF signal is passed through the main/sub switching circuit (Q161, Q164), and then output to the MAIN unit of IC-910H via J311 (pin 25 [Main], pin 1 [Sub]).

The amplified signals are passed through the bandpass fil- ter (FI1) to suppress spurious components, and are ampli- fied at the pre-drive amplifier (Q36, Q38) and power module (IC21) to obtain a stable 10 W of output power.

The output signals from the power module (IC21) are passed through the duplexer circuit (RL51) and detector cir- cuits of forwared voltage and refrected voltage, and are then applied to the antenna connector.

4-4-6 PLL CIRCUITS

UX-910 contains 2 frequency synthesizer circuit. This unit does not have a local oscillator circuit and uses a 30.2 MHz frequency from IC-910H as a reference frequency. The 2nd LO circuit adopt “Icom’s original I-loop PLL” to obtain 1 Hz pitch fine tuning.

The reference frequency from the IC-910H via J312 is amplified at the reference amplifier (IC601, Q601) and applied to the 2LO DDS IC (IC661). A portion of the refer- ence signal is also applied to the divider circuit (IC610). The divided signal is applied to the 1LO PLL circuit (IC501).

4-4-7 1LO PLL CIRCUIT

The 1LO PLL circuit generates the 1st LO frequency, and the signal is applied to the 1st mixer circuit as the “1LO” sig- nal.

An oscillated signal from the 1LO VCO (Q541, Q542) pass- es through the buffer amplifiers (Q551, Q681) and is applied to the PLL IC (IC501, pin 1) and is prescaled in the PLL IC based on the divided ratio (N-data). The reference signal is also applied to the PLL IC (IC501, pin 6). The PLL IC detects the out-of-step phase using the reference frequency and outputs it from pin 10. The output signal is passed through the active filter (IC502, Q511, Q512) and is then applied to the 1LO VCO circuit as the lock voltage.

4-4-4 IF AMPLIFIER CIRCUIT (for TX)

The modulated 2nd IF signal from IC-910H via J311 is ampli- fied at the 2nd IF amplifier (Q81), and is passed through the low-pass filter (L82, L83, C80, C85–C89) to suppress unwanted signals. The filtered signal is then applied to the 2nd mixer circuit.

The applied signal is mixed at the 2nd mixer circuit (D82, L84, L85) to converted into the 1st LO signal with the 2nd LO signal, which comes from the 2nd LO VCO (Q731).

Then the 1st LO signal is passed through the low-pass filter (L121, L122, C121–C125) and amplified at the 1st IF ampli- fier (IC111). The amplified signal is passed through the bandpass filter (FI101) between the attenuators (R104–R106) and (R133–R135), and are then applied to the 1st mixer circuit (IC131).

The signal is mixed with the 1st LO signal coming from the 1st LO VCO circuit (Q451, Q452) to converted into RF sig- nals.

4-4-5 DRIVE/POWER AMPLIFIER CIRCUITS (for TX)

The RF signals from the 1st mixer circuit are passed through the bandpass filter (FI141) and low-pass filter (L141, L142, C142–C146), and then amplified at the YGR amplifier circuit (IC141).

4-4-8 2LO PLL CIRCUIT

The 2LO PLL circuit generates the 2nd LO frequency, and the signal is applied to the 2nd mixer circuit as the “2LO” sig- nal.

The signal generated at the 2LO VCO circuit (Q731) is amplified at the buffer amplifiers (Q741, Q761), then applied to the prescaler circuit (IC761). The prescaler circuit divides the applied signal, and outputs it to the DDS circuit (IC661) via the buffer amplifier (Q762). The DDS circuit generates digital signals using the applied signals as a clock frequen- cy. The phase detector section in IC661 compares its phase with the reference frequency from the reference amplifier (IC601). IC661 outputs off-phase components as pulse sig- nals via pins 51, 52.

The output pulses are converted into DC voltage at the loop filter circuit (IC701a) and then applied to the 2LO VCO cir- cuit.

The D/A converter (R621–R645), low-pass filter (L651–L653, C651–C657) and buffer amplifier (IC621) cir- cuits are connected to the DDS output to convert the digital oscillated signals into smooth analog signals.

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IC-910H specifications

The Icom IC-910H is a highly regarded and versatile transceiver that is designed for amateur radio operators who are particularly interested in V/UHF and microwave communications. Known for its exceptional performance, the IC-910H encompasses a suite of features that make it a standout choice for both casual and dedicated hams.

One of the main features of the IC-910H is its dual-band capability, allowing for simultaneous operation on both 144 MHz (2 meters) and 430 MHz (70 centimeters) bands. This dual operation enables users to engage in various communication modes, including SSB, CW, FM, and digital. Its high frequency stability ensures that users can rely on the transceiver for accurate and consistent transmissions.

The IC-910H is equipped with a high-performance 10 MHz IF filter that improves selectivity and reduces adjacent channel interference. The optional 1.2 GHz module enhances the transceiver’s capabilities, allowing operators to venture into microwave frequencies. This expandability is a significant advantage for users who wish to progress in their amateur radio pursuits.

Another notable aspect of the IC-910H is its large, easy-to-read LCD display, which features various color options for enhanced visibility. The front panel layout is user-friendly, providing quick access to important controls and functions. The built-in DSP (Digital Signal Processing) technology offers noise reduction and filtering capabilities, significantly improving overall audio quality and making weak signals more intelligible.

The transceiver also includes extensive memory functions, with up to 1,000 memory channels available for storing frequencies, modes, and operational settings. Additionally, it supports CTCSS and DCS tones, which facilitate the use of repeater systems and private group communications.

In terms of build quality, the IC-910H features a robust construction designed for durability and long-term use. Its efficient power supply management ensures excellent performance while minimizing heat generation, making it suitable for extended operating sessions.

Overall, the Icom IC-910H is a powerful and feature-rich transceiver that is favored by many amateur radio enthusiasts. With its versatile operating modes, advanced filtering capabilities, and clear display, it stands out as a reliable tool for both casual operators and serious DXers. Its well-thought-out design and comprehensive features make it a valuable addition to any ham's station collection.

Icom IC-910H service manual PLL Circuits, 7 1LO PLL Circuit, 8 2LO PLL Circuit

Models: IC-910H