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Motorola Cp200 Detailed 6880309n62 C Manual

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    Page 141

    Page 141 6880309N62-CJune, 2005 VHF Schematic Diagrams, Overlays, and Parts Lists: Speaker and Microphone Schematic 7-3 7.1.2 Six Layer Circuit Board Figure 7-1. Six-Layer Circuit Board: Copper Steps in Layer Sequence 7.2 Speaker and Microphone Schematic Figure 7-2. Speaker and Microphone Schematic 7.2.1 Speaker and Microphone Parts List Reference DesignatorMotorola Part No.Description MK15080258E16Microphone, electret SP1 5005679X04 Speaker assembly with connector LAYER 1 (L1) LAYER 2 (L2) LAYER 3 (L3)... 
    6880309N62-CJune, 2005
VHF Schematic Diagrams, Overlays, and Parts Lists: Speaker and Microphone Schematic 7-3
7.1.2 Six Layer Circuit Board
Figure 7-1.  Six-Layer Circuit Board: Copper Steps in Layer Sequence 
7.2 Speaker and Microphone Schematic
Figure 7-2.  Speaker and Microphone Schematic
7.2.1 Speaker and Microphone Parts List
Reference
DesignatorMotorola Part 
No.Description
MK15080258E16Microphone, electret
SP1 5005679X04 Speaker assembly with 
connector
LAYER 1 (L1)
LAYER 2 (L2)
LAYER 3 (L3)...

    Page 142

    Page 142 June, 20056880309N62-C This Page Intentionally Left Blank 7-4VHF Schematic Diagrams, Overlays, and Parts Lists: Speaker and Microphone Schematic 
    June, 20056880309N62-C
This Page Intentionally Left Blank
7-4VHF Schematic Diagrams, Overlays, and Parts Lists:  Speaker and Microphone Schematic

    Page 143

    Page 143 Chapter 8 403-440 MHz UHF Theory Of Operation 8.1 Introduction This chapter provides a detailed theory of operation for the radio components. Schematic diagrams for the circuits described in the following paragraphs are located in Chapter 12 of this manual. 8.2 UHF Receiver The UHF receiver covers the range of 403-440 MHz and provides switchable IF bandwidth for use with 20/25/30 kHz or 12.5 kHz channel spacing systems. The receiver is divided into two major blocks, as shown in Figure 8-1. • Front End... 
    Chapter 8 403-440 MHz UHF Theory Of Operation
8.1 Introduction
This chapter provides a detailed theory of operation for the radio components. Schematic diagrams 
for the circuits described in the following paragraphs are located in Chapter 12 of this manual.
8.2 UHF Receiver
The UHF receiver covers the range of 403-440 MHz and provides switchable IF bandwidth for use 
with 20/25/30 kHz or 12.5 kHz channel spacing systems. The receiver is divided into two major 
blocks, as shown in Figure 8-1.
• Front End...

    Page 144

    Page 144 June, 20056880309N62-C 8-2403-440 MHz UHF Theory Of Operation: UHF Receiver The output of the RF amplifier is applied to the interstage filter, a fixed-tuned 4-pole Butterworth shunt-coupled resonator design having a 3 dB bandwidth of 68 MHz centered at 462 MHz, and insertion loss of 3.5 dB. This filter yields an image rejection of 58 dB at 350 MHz, assisted by a transmission-zero at 300 MHz implemented by C524 for the reasons mentioned above. The output of the interstage filter is connected to the... 
    June, 20056880309N62-C
8-2403-440 MHz UHF Theory Of Operation: UHF Receiver
The output of the RF amplifier is applied to the interstage filter, a fixed-tuned 4-pole Butterworth 
shunt-coupled resonator design having a 3 dB bandwidth of 68 MHz centered at 462 MHz, and 
insertion loss of 3.5 dB. This filter yields an image rejection of 58 dB at 350 MHz, assisted by a 
transmission-zero at 300 MHz implemented by C524 for the reasons mentioned above.
The output of the interstage filter is connected to the...

    Page 145

    Page 145 6880309N62-CJune, 2005 403-440 MHz UHF Theory Of Operation: UHF Transmitter 8-3 8.3 UHF Transmitter The UHF transmitter covers the range of 403-440 MHz. Depending on model, the output power of the transmitter is either switchable on a per-channel basis between high power (4 watts) and low power (1 watt), or is factory preset to 2 watts. The transmitter is divided into four major blocks as shown in Figure 8-2. • Power Amplifier • Harmonic Filter • Antenna Matching Network • Power Control. Figure 8-2.... 
    6880309N62-CJune, 2005
403-440 MHz UHF Theory Of Operation: UHF Transmitter 8-3
8.3 UHF Transmitter
The UHF transmitter covers the range of 403-440 MHz. Depending on model, the output power of the 
transmitter is either switchable on a per-channel basis between high power (4 watts) and low power 
(1 watt), or is factory preset to 2 watts. The transmitter is divided into four major blocks as shown in 
Figure 8-2.
• Power Amplifier
• Harmonic Filter 
• Antenna Matching Network
• Power Control.
Figure 8-2....

    Page 146

    Page 146 June, 20056880309N62-C 8-4403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry 8.3.4 Antenna Matching Network The harmonic filter presents a 50Ω impedance to antenna jack J140. A matching network, made up of C140-C141 and L140, is used to match the antenna impedance to the harmonic filter. This optimizes the performance of the transmitter and receiver into the impedance presented by the antenna, significantly improving the antennas efficiency. 8.3.5 Power Control The power control... 
    June, 20056880309N62-C
8-4403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry
8.3.4 Antenna Matching Network
The harmonic filter presents a 50Ω impedance to antenna jack J140. A matching network, made up of 
C140-C141 and L140, is used to match the antenna impedance to the harmonic filter. This optimizes 
the performance of the transmitter and receiver into the impedance presented by the antenna, 
significantly improving the antennas efficiency.
8.3.5 Power Control
The power control...

    Page 147

    Page 147 6880309N62-CJune, 2005 403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry 8-5 SPI_CLK, and SYNTH_CS (chip select) lines (U409 pins 100, 1 and 47 respectively). A logic high (3 V) from U201 pin 4 indicates to the microprocessor that the synthesizer is locked. Figure 8-3. UHF Frequency Generation Unit Block Diagram Transmit modulation from the ASFICcmp (U451 pin 40) is applied to U201 pin 10 (MOD_IN). An electronic attenuator in the ASFICcmp adjusts overall transmitter deviation by... 
    6880309N62-CJune, 2005
403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry 8-5
SPI_CLK, and SYNTH_CS (chip select) lines (U409 pins 100, 1 and 47 respectively). A logic high (3 
V) from U201 pin 4 indicates to the microprocessor that the synthesizer is locked.
Figure 8-3.  UHF Frequency Generation Unit Block Diagram
Transmit modulation from the ASFICcmp (U451 pin 40) is applied to U201 pin 10 (MOD_IN). An 
electronic attenuator in the ASFICcmp adjusts overall transmitter deviation by...

    Page 148

    Page 148 June, 20056880309N62-C 8-6403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry One of the auxiliary outputs of the synthesizer IC (AUX3, U201 pin 2) provides the TRB signal which determines the operating mode of the VCO, either receive or transmit. Figure 8-4. UHF Synthesizer Block Diagram 8.4.2 Voltage Controlled Oscillator (VCO) The VCOBIC (U251), shown in Figure 8-5, in conjunction with the Fractional-N synthesizer (U201) generates RF in both the receive and the transmit modes of... 
    June, 20056880309N62-C
8-6403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry
One of the auxiliary outputs of the synthesizer IC (AUX3, U201 pin 2) provides the TRB signal which 
determines the operating mode of the VCO, either receive or transmit.
Figure 8-4.  UHF Synthesizer Block Diagram
8.4.2 Voltage Controlled Oscillator (VCO)
The VCOBIC (U251), shown in Figure 8-5, in conjunction with the Fractional-N synthesizer (U201) 
generates RF in both the receive and the transmit modes of...

    Page 149

    Page 149 6880309N62-CJune, 2005 403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry 8-7 C267, and varactor D261. High-port audio modulation from the synthesizer IC is applied as VCO_MOD to varactor D262 which modulates the transmit VCO. Figure 8-5. UHF VCO Block Diagram Presc RX TX Matching Network Pin 8 Pin 14 Pin 103V (U330 Pin 5) VCC BuffersU201 Pin 32 AUX3 (U201 Pin 2) Prescaler Out Pin 12 Pin 19 Pin 20 TX/RX/BS Switching Network U251 VCOBIC Rx Active Bias Tx Active Bias Pin 2 Rx-I... 
    6880309N62-CJune, 2005
403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry 8-7
C267, and varactor D261. High-port audio modulation from the synthesizer IC is applied as 
VCO_MOD to varactor D262 which modulates the transmit VCO.
Figure 8-5.  UHF VCO Block Diagram
Presc
RX
TX
Matching 
Network Pin 8
Pin 14
Pin 103V (U330 Pin 5)
VCC BuffersU201 Pin 32 AUX3 (U201 Pin 2)
Prescaler Out
Pin 12 Pin 19 Pin 20
TX/RX/BS
Switching Network
U251
VCOBIC
Rx Active
Bias
Tx Active
Bias
Pin 2
Rx-I...

    Page 150

    Page 150 June, 20056880309N62-C Notes: 8-8403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry 
    June, 20056880309N62-C
Notes:
8-8403-440 MHz UHF Theory Of Operation: UHF Frequency Generation Circuitry
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