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MC145202

Motorola
Part Number MC145202
Manufacturer Motorola
Description Low-Voltage 2.0 GHz PLL Frequency Synthesizer
Published Jul 1, 2005
Detailed Description MOTOROLA SEMICONDUCTOR TECHNICAL DATA Order this document by MC145202/D MC145202 Low-Voltage 2.0 GHz PLL Frequency Sy...
Datasheet PDF File MC145202 PDF File

MC145202
MC145202

Overview
MOTOROLA SEMICONDUCTOR TECHNICAL DATA Order this document by MC145202/D MC145202 Low-Voltage 2.
0 GHz PLL Frequency Synthesizer Includes On–Board 64/65 Prescaler The MC145202 is a low–voltage single–package synthesizer with serial interface capable of direct usage up to 2.
0 GHz.
The counters are programmed via a synchronous serial port which is SPI compatible.
The serial port is byte-oriented to facilitate control via an MCU.
Due to the innovative BitGrabber Plus™ registers, the MC145202 may be cascaded with other peripherals featuring BitGrabber Plus without requiring leading dummy bits or address bits in the serial data stream.
In addition, BitGrabber Plus peripherals may be cascaded with existing BitGrabber™ peripherals.
The device features a single–ended current source/sink phase detector A output and a double–ended phase detector B output.
Both phase detectors have linear transfer functions (no dead zones).
The maximum current of the single–ended phase detector output is determined by an external resistor tied from the Rx pin to ground.
This current can be varied via the serial port.
Slew–rate control is provided by a special driver designed for the REFout pin.
This minimizes interference caused by REFout.
This part includes a differential RF input that may be operated in a single–ended mode.
Also featured are on–board support of an external crystal and a programmable reference output.
The R, A, and N counters are fully programmable.
The C register (configuration register) allows the part to be configured to meet various applications.
A patented feature allows the C register to shut off unused outputs, thereby minimizing system noise and interference.
In order to have consistent lock times and prevent erroneous data from being loaded into the counters, on–board circuitry synchronizes the update of the A register if the A or N counters are loading.
Similarly, an update of the R register is synchronized if the R counter is loading.
The double–buffered R registe...


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