Texas Instruments SCAU020 manual Block a, Block B, Block C, Block D

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Block Description

3Block Description

This section discusses the four EVM blocks.

3.1Block A

Block A includes a CDCE421 QFN device that accepts an LVCMOS reference input through the vertical SMA input connector (Ref Input) which is ac-coupled onto the board.

3.2Block B

This block includes a CDCE421 QFN device that uses an AT-cut crystal. This block can be used as either an XO or a VCXO. For use as an XO or VCXO, the crystal should be mounted on either of the two crystal footprints on the board. A vertical SMA input connector must also be installed on the provided footprint to be used as the control voltage input for use as a VCXO.

3.3Block C

Block C includes a CDCE41 device in its bare die form, packaged within a 5x7 oscillator. The oscillator package also includes a fixed frequency crystal with a specified load and range. Oscillators with different frequency crystals that contain a CDCE421 device can be obtained through Pletronics.

3.4Block D

The fourth block, D, includes a socket fitting the oscillator part used in Block C.

4Software-Selectable Options

The provided EVM software is controlled through a graphical user interface (GUI). The software allows users to easily send commands to the CDCE421 through the host-powered USB interface. The EVM includes a slave USB controller that transmits the commands to the single-pin programming interface included on the CDCE421. DC power for the USB controller can be provided either from the 5V power pin in the USB cable or by using an external 5V ac adapter (plugged into the slot available on the EVM).

In addition to writing commands to the CDCE421 SRAM while the board is powered, software commands can also be stored in either the nonvolatile USB microcontroller memory or the EEPROM included within the CDCE421. This architecture allows users to start the EVM in the desired state without requiring additional programming at power-up.

Note that the CDCE421 does have a permanent EEPROM lock mode. When this mode is selected, the embedded EEPROM in the CDCE421 cannot be changed. This mode is useful when setting final configurations.

SCAU020 –March 2007

10.9MHz–1175MHz Low Phase Noise Clock Evaluation Board

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Contents Users Guide Submit Documentation Feedback Contents List of Figures General Description CDCE421EVM Evaluation Board FeaturesCDCE421EVM Programming Blocks Signal Path and Control CircuitryBlock D Block aBlock B Block CSoftware Installation Screen Installing the Software GUI and USB DriverStore Crystal Frequency Using Software-Enabled Automatic PLL SelectionIC Block Configuration and Input Calculator ChronosGUIPLL Bandwidth Select Output Calculator and Apply PLL SettingsWrite to CDCE421 Eeprom Chronos GUI-Manual PLL Block Selection Pop-Up Manual PLL Block Selection Advanced ControlSection Function Software Settings DescriptionProgramming Configuration USB Cable Attached Configuring the BoardCDCE421EVM Block Switch Off Schematics and LayoutCDCE421EVM Board Schematic CDCE421EVM Board-Block a Schematic CDCE421EVM Board-Block B Schematic CDCE421EVM Board-Block C Schematic CDCE421EVM Board-Block D Schematic FCC Warning Evaluation BOARD/KIT Important NoticeImportant Notice
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